CN210809272U - Ultrasonic atomization device controlled by gyroscope - Google Patents
Ultrasonic atomization device controlled by gyroscope Download PDFInfo
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- CN210809272U CN210809272U CN201920809813.3U CN201920809813U CN210809272U CN 210809272 U CN210809272 U CN 210809272U CN 201920809813 U CN201920809813 U CN 201920809813U CN 210809272 U CN210809272 U CN 210809272U
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Abstract
The utility model relates to an adopt ultrasonic atomization device of gyroscope control, including breathing out the part, power supply unit, the container part, ultrasonic atomization mechanism, a circuit board, the air duct, electric heating component, ultrasonic atomization mechanism is including atomizing base, ultrasonic atomization electrical apparatus piece, the cotton body of oil storage, filter the stopper, the chamber bottom of the flat toper cavity of atomizing base reaches all around and all installs ultrasonic atomization electrical apparatus piece, filter the stopper and install in the inlet port that the atomizing base was equipped with, be equipped with air vent and play fog hole on the cotton body of oil storage and install in flat toper cavity, be equipped with miniature gyroscope part on the circuit board, ultrasonic atomization operation is made to each ultrasonic atomization electrical apparatus piece under miniature gyroscope part control. The utility model discloses a miniature gyroscope part controls the ultrasonic atomization electrical apparatus piece in its every position and starts work when suitable position, makes the output of its smog more smooth and easy, can not take place intermittent phenomenon, has maintained the life of ultrasonic atomization electrical apparatus piece effectively.
Description
Technical Field
The utility model relates to an ultrasonic wave electron cigarette or ultrasonic atomization breathe product technical field, especially an ultrasonic atomization device who utilizes heater heating atomizing gas, no water droplet to condense adopts gyroscope control.
Background
The electronic cigarette product of the existing ultrasonic atomization is roughly composed of a cigarette holder, a power supply component, a container component, an ultrasonic atomization mechanism, a circuit board, an air duct, an electric heating component and the like, and the electronic cigarette product is mainly characterized by comprising the following components in parts by weight: the bottom of container portion is flat structure, has set up an ultrasonic atomization mechanism simultaneously on the intermediate position of flat bottom, and when the electron cigarette in the in-process of smoking, be in the state of lying down basically, the tobacco juice just is in on the heeling flows the container lateral wall, can't flow in the ultrasonic atomization mechanism, influences the normal atomization of ultrasonic atomization mechanism and handles, causes the electron cigarette can not draw the flue gas in some times, especially uses under the comparatively less condition at the tobacco juice, and this kind of situation is more obvious. In addition, the ultrasonic atomization mechanism does idle work for a long time on the premise that the ultrasonic atomization mechanism cannot contact tobacco juice, so that the phenomenon that devices are burnt out due to temperature rise is easy to occur, and the service life of the electronic cigarette is influenced to a great extent. In addition, the outside air inlet of the existing electronic cigarette is not provided with any separation filtering part, and dust, other fine impurities and the like of the outside air are easy to be absorbed into the oral cavity of people in the smoking process, so that the health of people is affected. Therefore, in view of these disadvantages, the applicant of the present invention needs to improve the internal structure and operation principle of the existing electronic cigarette, so that the output of the smoke is smoother, no intermittent phenomenon occurs, the service life is longer, and the application is more sanitary and safer.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the problems and the defects, the utility model provides an ultrasonic atomization device controlled by a gyroscope, which adopts the structural design of a flat conical cavity, and designs a plurality of ultrasonic atomization electric appliance pieces on the bottom surface and the peripheral cavity wall of the flat conical cavity, and simultaneously adopts a micro gyroscope component to control the ultrasonic atomization electric appliance pieces in each direction to start working when in a proper direction, namely, the ultrasonic atomization electric appliance pieces soaked in liquid start atomization working, thereby ensuring the smoke output to be smoother, avoiding the intermittent phenomenon, ensuring the smoke absorption to be smoother and more comfortable, effectively protecting the ultrasonic atomization electric appliance pieces and prolonging the service life; the filter plug and the one-way air inlet micro valve are arranged at the external air inlet hole, external dust and other impurities can be effectively prevented from being sucked into the oral cavity of a human body through the filter plug, the application is sanitary and safe, and the phenomenon of liquid leakage from the air inlet hole can be effectively avoided through the application of the one-way air inlet micro valve, so that the application is safer, sanitary and better.
The technical scheme of the utility model is realized like this: an ultrasonic atomization device controlled by a gyroscope comprises an inhalation component, a power supply component, a container component, an ultrasonic atomization mechanism, a circuit board, an air guide tube and an electric heating component, and is characterized in that the ultrasonic atomization mechanism comprises an atomization base, an ultrasonic atomization electric appliance piece, an oil storage cotton body and a filter plug, wherein the atomization base is provided with a flat-bottom conical cavity, the ultrasonic atomization electric appliance piece is arranged on the bottom surface of the flat-bottom conical cavity, and a plurality of ultrasonic atomization electric appliance pieces are respectively arranged on the wall of the conical cavity around the flat-bottom conical cavity; the side surfaces of the periphery of the atomizing base are also provided with air inlet holes communicated with the flat-bottom conical concave cavity, the filter plug can be conveniently and detachably screwed in the air inlet holes, and a one-way air inlet micro valve is also arranged in the air inlet hole at the front end of the filter plug; the oil storage cotton body is arranged into a cotton body with a flat-bottom conical structure, the oil storage cotton body is arranged in the flat-bottom conical concave cavity, and the oil storage cotton body is also provided with a vent hole which is butted with the air inlet hole and leads to the top surface of the oil storage cotton body; the oil storage cotton body is also provided with a mist outlet hole at the position aligned with the ultrasonic atomization electric appliance sheet; the circuit board is arranged on the outer bottom surface of the atomization base, a micro gyroscope component is further arranged on the circuit board, each ultrasonic atomization electric appliance piece is electrically connected with the circuit board, and each ultrasonic atomization electric appliance piece is controlled by the micro gyroscope component to perform ultrasonic atomization operation.
Furthermore, a sleeving cavity is further formed in the atomizing base and located above the flat-bottom conical concave cavity, the bottom end of the container part is sleeved on the sleeving cavity, the bottom surface of the container part is in contact with the top surface of the oil storage cotton body, and a liquid seepage hole for permeating liquid into the oil storage cotton body is further formed in the bottom surface of the container part; and a sealing ring is also arranged between the bottom end of the container part and the wall of the sleeve cavity.
Furthermore, the middle part of the bottom surface of the container part is also provided with a sleeve joint part, and the liquid seepage holes are arranged on the bottom surface of the container part around the sleeve joint part; the air duct is sleeved in the container part, a liquid storage cavity is formed between the outer wall of the air duct and the inner wall of the container part, and a horn-shaped sleeving part is further arranged at the bottom end of the air duct and sleeved on the sleeving part.
Still further, the top ends of the container part and the air duct are also provided with container covers, the bottom surfaces of the container covers are also respectively provided with an outer sleeved part and an inner sleeved part, the outer sleeved part is sleeved with the top end of the container part, a sealing ring is arranged between the outer sleeved part and the top end of the container part, and the inner sleeved part is sleeved with the top end of the air duct; the top surface of the container cover is also provided with an upper connecting part which is communicated with the inner connecting part, and the breathing component is connected with the upper connecting part.
The utility model has the advantages that: the utility model adopts the structural design of the flat conical cavity, and a plurality of ultrasonic atomization electric appliance pieces are designed on the bottom surface and the peripheral cavity wall of the flat conical cavity, and simultaneously, the miniature gyroscope component is adopted to control the ultrasonic atomization electric appliance pieces in each direction to start working in the proper direction, namely, the ultrasonic atomization electric appliance pieces soaked in liquid start atomization working, so that the output of smoke is smoother, the phenomenon of interruption can not occur, the smoke absorption is smoother and more comfortable, the ultrasonic atomization electric appliance pieces are effectively protected, and the service life of the ultrasonic atomization electric appliance pieces is prolonged; the filter plug and the one-way air inlet micro valve are arranged at the external air inlet hole, external dust and other impurities can be effectively prevented from being sucked into the oral cavity of a human body through the filter plug, the application is sanitary and safe, and the phenomenon of liquid leakage from the air inlet hole can be effectively avoided through the application of the one-way air inlet micro valve, so that the application is safer, sanitary and better. The utility model discloses a scheme structure has and realizes easily, simple structure, and is safe, sanitary, can use on electron cigarette product, liquid medicine atomizing breathing product, the external use applicator product of electron extensively.
Drawings
Fig. 1 is a schematic perspective view of a first embodiment of the present invention.
Fig. 2 is a schematic view of the dismounting structure of the scheme in fig. 1 of the present invention.
Fig. 3 is a schematic sectional view of the direction a-a in fig. 2 according to the present invention.
Fig. 4 is a schematic structural view of the cross-sectional view along the direction B-B in fig. 2 according to the present invention.
Fig. 5 is a schematic view of the dismounting structure of the ultrasonic atomizing mechanism of the present invention.
Fig. 6 is a schematic view of an assembly structure of the storage battery and the circuit board according to the first embodiment of the present invention.
Fig. 7 is a schematic perspective view of a second embodiment of the present invention.
Fig. 8 is a schematic structural view of the cross-sectional view along the direction C-C in fig. 7 according to the present invention.
Fig. 9 is a schematic perspective view of the air suction mask according to the second embodiment of the present invention.
Detailed Description
As shown in fig. 1 to 9, an ultrasonic atomization device controlled by a gyroscope of the present invention includes an inhalation component 1, a power component 2, a container component 3, an ultrasonic atomization mechanism 4, a circuit board 5, an air duct 6, and an electric heating component 7. In order to realize the utility model provides a purpose, as shown in fig. 5, ultrasonic atomization mechanism 4 includes atomizing base 41, ultrasonic atomization electrical apparatus piece 42, the cotton body 43 of oil storage, filters stopper 44, wherein, atomizing base 41 is equipped with flat toper cavity 411, installs ultrasonic atomization electrical apparatus piece 42 at the chamber bottom surface of flat toper cavity 411, still installs a plurality of ultrasonic atomization electrical apparatus pieces 42 on the toper chamber wall all around of flat toper cavity 411 respectively distributively. The number of the ultrasonic atomization electric plates 42 can be set according to the size of the flat-bottom conical cavity 411 or the size of the whole product, and no special requirement is needed.
In order to make the airflow flow faster in the respiratory process, as shown in fig. 3 to 5, the side surface of the periphery of the atomizing base 41 is further provided with an air inlet 412 communicated with the flat-bottom conical cavity 411, and the filter plug 44 can be conveniently and detachably screwed in the air inlet 412 to filter and block dust and fine impurities carried in the air, so as to ensure the respiratory health of people. In addition, in order to ensure that the smoke or other liquid medicine contained in the container member 3 does not leak from the air inlet hole 412, as shown in fig. 3 to 5, a one-way air inlet micro valve 45 is further provided in the air inlet hole 412 at the front end of the filter plug 44, and only the external air is allowed to be input but the liquid inside is not allowed to leak outside due to the one-way passage characteristic of the one-way air inlet micro valve 45.
As further shown in fig. 3-5, the oil-retaining cotton 43 is configured as a flat-bottom conical configuration, i.e., the cotton is shaped to fit within the flat-bottom conical well 411 in a snug fit. The oil storage cotton body 43 is arranged in the flat-bottom conical cavity 411, and a vent hole 431 which is butted with the air inlet hole 412 and leads to the top surface of the oil storage cotton body 43 is further arranged on the oil storage cotton body 43. At this time, in order to allow the mist generated by the operation of the ultrasonic atomizing electrode 42 to directly reach the air duct 6, as shown in fig. 3 and 4, a mist outlet 415 is further provided in the oil-storing cotton 43 at a position aligned with the ultrasonic atomizing electrode 42.
The circuit board 5 is installed on the outer bottom surface of the atomization base 41, a micro gyroscope component 51 is further arranged on the circuit board 5, each ultrasonic atomization electric appliance piece 42 is electrically connected with the circuit board 5, and each ultrasonic atomization electric appliance piece 42 performs ultrasonic atomization operation under the control of the micro gyroscope component 51. The utility model uses the micro gyroscope part 51, so that the liquid in the container part 3 flows and changes and stays at the corresponding angle position because of the angle change of people gripping the product every time or every time when the product is used; the micro gyroscope part 51 feeds back an azimuth signal to the circuit board 5 according to the angle change of the product every time, the circuit board 5 starts the ultrasonic atomization electric appliance sheet 42 in the corresponding azimuth to work, namely, the ultrasonic atomization electric appliance sheet soaked in liquid starts atomization work, so that the output of smoke is smoother, intermittent phenomena caused by the soaking of missing liquid can be avoided, the ultrasonic atomization electric appliance sheet in each azimuth can be effectively maintained, the ultrasonic atomization electric appliance sheet can not work in the liquid-missing condition, and the service life of the ultrasonic atomization electric appliance sheet can be effectively prolonged. The utility model also discloses a design has the structure of flat conical cavity, and set up an ultrasonic atomization electrical apparatus piece in flat conical cavity's bottom surface and be provided with a plurality of ultrasonic atomization electrical apparatus pieces on its lateral wall all around-be exactly for the cooperation is triggered ultrasonic atomization electrical apparatus in every position by miniature gyroscope part 51 and is worked alone, makes this product no matter in which angle, can both go out smog smoothly, can not take place the discontinuous phenomenon of smog.
In order to assemble the atomizing base 41 and the container component 3 together simply and reliably, as shown in fig. 3 and 4, a sleeve cavity 413 is further arranged on the atomizing base 41 above the flat-bottom conical cavity 411, the bottom end of the container component 3 is sleeved on the sleeve cavity 413, the bottom surface of the container component 3 is contacted with the top surface of the oil storage cotton 43, a liquid seepage hole 31 which permeates liquid to the oil storage cotton 43 is further arranged on the bottom surface of the container component 3, and a sealing ring 9 is further arranged between the bottom end of the container component 3 and the wall of the sleeve cavity 413 so as to prevent leakage between the bottom end of the container component 3 and the wall of the sleeve cavity 413.
In order to simply, reliably and safely connect the gas-guide tube 6 and the container part 3 together, as shown in fig. 3 and 4, a sleeve joint part 32 is further arranged in the middle of the bottom surface of the container part 3, and the liquid seepage holes 31 are arranged on the bottom surface of the container part 3 around the sleeve joint part 32; the air duct 6 is sleeved in the container part 3, a liquid storage cavity 30 is formed between the outer wall of the air duct 6 and the inner wall of the container part 3, a horn-shaped sleeving part 61 is further arranged at the bottom end of the air duct 6, and the horn-shaped sleeving part 61 is sleeved on the sleeving part 32.
In order to further optimize the assembly structure of the present invention, as shown in fig. 2 to 4, the container cover 8 is further disposed on the top ends of the container part 3 and the air duct 6, the bottom surface of the container cover 8 is further provided with an outer sleeved part 81 and an inner sleeved part 82, the outer sleeved part 81 is sleeved with the top end of the container part 3, a sealing ring 9 is further disposed between the outer sleeved part 81 and the top end of the container part 3, and the inner sleeved part 82 is sleeved with the top end of the air duct 6; the top surface of the container cover 8 is also provided with an upper connecting part 83, the upper connecting part 83 is communicated with the inner connecting part 82, and the breathing component 1 is connected with the upper connecting part 83. The electric heating part 7 is a spring-shaped electric heating wire which is sleeved in the air duct 6 and is electrically connected with the circuit board 5 through an electric wire.
In order to facilitate the addition of the solution to the container member 3, as shown in fig. 3, 4 or 7, a filling port 84 with a cap is further provided in the container lid 8.
The utility model discloses a breathe in subassembly 1 can be according to the difference of usage, design the shape molding that suits mutually. For example, when the solution of the present invention is applied to an electronic cigarette product, as shown in fig. 1 and fig. 2, the breath component 1 is a mouth-holding type mouthpiece, and the mouthpiece is connected with the upper connecting portion 83, specifically, the breath component can be assembled and connected with the upper connecting portion in a threaded manner.
When the utility model is used as a liquid medicine respirator, as shown in fig. 7 to 9, the breathing component 1 is an inhalation mask body which is connected with the upper connecting part 83 through the trachea 200. The two sides of the air suction face mask body are also provided with lugs 11 with through holes, and binding bands 12 are arranged on the lugs 11 in a penetrating way so as to be convenient for people to wear. At this time, the outer side surface of the container member 3 is further provided with a hook 300 to facilitate carrying and using.
In order to optimize the solution structure of the present invention still further, as shown in fig. 6, the bottom of the atomizing base 41 is further provided with a housing 10, and the circuit board 5 is installed in the housing 10. The power supply unit 2 is a battery that is disposed in the housing 10.
In the embodiments shown in fig. 7 to 9, in order to accelerate the mist to be transported toward the suction face cover body, as shown in fig. 8, a booster micro-fan 100 is further provided between the upper connecting portion 83 and the inner connecting portion 82 in the cover 8. In addition, when the schemes shown in fig. 7 to 9 are implemented, the power supply part 2 may be a transformer part that converts alternating current into direct current.
In addition, in order to further promote the utility model discloses an intellectuality and hommization of technical scheme application can also be provided with electronic level sensor 40 in the bottom of container part 3, monitors the liquid surplus in the container part 3. The electronic level sensor is electrically connected to the circuit board 5 to feed back the monitored electrical signal to the circuit board 5. Meanwhile, a micro speaker 50 is provided on the circuit board 5 to give an alarm sound for the user when the liquid is used up or about to be used up.
In addition, when concrete implementation, can also add WIFI module or bluetooth module on its circuit board 5 to develop corresponding APP control software, and then realize operating the operation of this machine with smart mobile phone or panel computer, reach the purpose of wireless control.
Claims (10)
1. The utility model provides an adopt ultrasonic atomization device of gyroscope control, includes breathing part (1), power supply unit (2), container part (3), ultrasonic atomization mechanism (4), circuit board (5), air duct (6), electric heating part (7), its characterized in that: the ultrasonic atomization mechanism (4) comprises an atomization base (41), an ultrasonic atomization electric appliance sheet (42), an oil storage cotton body (43) and a filter plug (44), wherein
The atomization base (41) is provided with a flat-bottom conical concave cavity (411), the bottom surface of the flat-bottom conical concave cavity (411) is provided with an ultrasonic atomization electric appliance sheet (42), and the conical cavity walls around the flat-bottom conical concave cavity (411) are respectively provided with a plurality of ultrasonic atomization electric appliance sheets (42) in a distributed manner;
the side surface of the periphery of the atomizing base (41) is also provided with an air inlet hole (412) communicated with the flat-bottom conical cavity (411), the filter plug (44) can be conveniently and detachably screwed in the air inlet hole (412), and a one-way air inlet micro valve (45) is also arranged at the front end of the filter plug (44) in the air inlet hole (412);
the oil storage cotton body (43) is arranged into a cotton body with a flat-bottom conical structure, the oil storage cotton body (43) is arranged in the flat-bottom conical cavity (411), and the oil storage cotton body (43) is also provided with a vent hole (431) which is butted with the air inlet hole (412) and leads to the top surface of the oil storage cotton body (43);
a mist outlet hole (415) is formed in the position, aligned with the ultrasonic atomization electric appliance sheet (42), of the oil storage cotton body (43);
the circuit board (5) is installed on the outer bottom surface of the atomization base (41), a micro gyroscope component (51) is further arranged on the circuit board (5), each ultrasonic atomization electric appliance piece (42) is electrically connected with the circuit board (5), and each ultrasonic atomization electric appliance piece (42) conducts ultrasonic atomization operation under the control of the micro gyroscope component (51).
2. The ultrasonic atomizing device controlled by a gyroscope according to claim 1, wherein: a sleeving cavity (413) is further formed in the atomizing base (41) and located above the flat-bottom conical concave cavity (411), the bottom end of the container part (3) is sleeved on the sleeving cavity (413), the bottom surface of the container part (3) is in contact with the top surface of the oil storage cotton body (43), and a liquid seepage hole (31) for enabling liquid to permeate into the oil storage cotton body (43) is further formed in the bottom surface of the container part (3); a sealing ring (9) is also arranged between the bottom end of the container component (3) and the wall of the sleeving cavity (413).
3. The ultrasonic atomizing device controlled by a gyroscope according to claim 2, wherein: the middle part of the bottom surface of the container part (3) is also provided with a sleeve joint part (32), and the liquid seepage holes (31) are arranged on the bottom surface of the container part (3) positioned at the periphery of the sleeve joint part (32);
the air duct (6) is sleeved in the container part (3), a liquid storage cavity (30) is formed between the outer wall of the air duct (6) and the inner wall of the container part (3), a horn-shaped sleeved part (61) is further arranged at the bottom end of the air duct (6), and the horn-shaped sleeved part (61) is sleeved on the sleeved part (32).
4. The ultrasonic atomizing device controlled by a gyroscope according to claim 3, wherein: the top ends of the container part (3) and the air guide pipe (6) are also provided with a container cover (8), the bottom surface of the container cover (8) is also respectively provided with an outer sleeved part (81) and an inner sleeved part (82), the outer sleeved part (81) is sleeved with the top end of the container part (3), a sealing ring (9) is arranged between the outer sleeved part (81) and the top end of the container part (3), and the inner sleeved part (82) is sleeved with the top end of the air guide pipe (6); the top surface of the container cover (8) is also provided with an upper connecting part (83), the upper connecting part (83) is communicated with the inner connecting part (82), and the breathing component (1) is connected with the upper connecting part (83).
5. The ultrasonic atomizing device controlled by a gyroscope according to claim 3, wherein: the electric heating part (7) is a spring-shaped electric heating wire which is sleeved in the air duct (6) and is electrically connected with the circuit board (5) through an electric wire.
6. The ultrasonic atomization device controlled by the gyroscope of claim 4, wherein: the breathing component (1) is a mouth-holding type breathing nozzle, and the breathing nozzle is connected with the upper connecting part (83);
or the breathing component (1) is an air suction mask body which is connected with the upper connecting part (83) through an air pipe.
7. The ultrasonic atomization device controlled by the gyroscope of claim 4, wherein: the container cover (8) is also provided with a filling opening (84) with a cap.
8. The ultrasonic atomizing device controlled by a gyroscope according to claim 1, wherein: the bottom of atomizing base (41) still is equipped with shell (10), circuit board (5) are installed in shell (10).
9. The ultrasonic atomization device controlled by the gyroscope of claim 8, wherein: the power supply component (2) is a storage battery which is arranged in the shell (10).
10. The ultrasonic atomization device controlled by the gyroscope of claim 4, wherein: and a booster micro fan (100) is also arranged between the upper connecting part (83) and the inner connecting part (82) in the container cover (8).
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CN112006330A (en) * | 2019-05-30 | 2020-12-01 | 彭志军 | Ultrasonic atomization device controlled by gyroscope |
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CN112006330A (en) * | 2019-05-30 | 2020-12-01 | 彭志军 | Ultrasonic atomization device controlled by gyroscope |
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