CN113100494B - Atomizer - Google Patents

Abstract

The invention provides an atomizer, which comprises a liquid storage device, a heating device and an air flow device which are sequentially arranged from top to bottom, wherein the upper part of the liquid storage device is provided with a mist outlet pipeline, the lower part of the liquid storage device is provided with a mist inlet channel which is sequentially communicated with the air flow device and the mist outlet pipeline, and the heating device can comprise one of the following components: 1) The device comprises a porous ceramic electric heater arranged in a groove shape, wherein the porous ceramic electric heater is communicated with the lower part of the liquid storage device and is buckled and connected with the lower part of the liquid storage device; 2) The electric heating wire heating device comprises an electric heating wire heater formed by winding an electric heating wire and a liquid guide material, wherein the electric heating wire heater is connected with the lower part of the liquid storage device in an inserting and combining manner. The atomizer disclosed by the invention is simple and novel in structure and good in atomization effect.

Description

Atomizer

Technical Field

The invention relates to the technical field of atomization devices, in particular to an atomizer.

Background

An atomizer is an electronic product that atomizes liquid by heating and generates an atomized substance, and electronic cigarettes are well known as one of application forms of the atomizer. According to different application scenes of the liquid to be heated and the atomized compound thereof, the atomizer is widely applied to other fields, such as the medical field, the household field and the like.

In the medical field or the household field, it is often necessary to atomize liquid, such as water, aromatherapy essential oil, liquid medicine, etc., by an atomizer to achieve the purpose of regulating indoor air or therapy. However, most atomizers in the prior art have complex structures and poor atomizing effect.

Disclosure of Invention

In view of the above, the technical problems to be solved by the present invention are: provides an atomizer which has simple and novel structure and better atomization effect.

In order to solve the technical problem, the invention provides an atomizer which comprises a liquid storage device, a heating device and an air flow device which are sequentially arranged from top to bottom, wherein the upper part of the liquid storage device is provided with a mist outlet pipeline, and the lower part of the liquid storage device is provided with a mist inlet channel which is sequentially communicated with the air flow device and the mist outlet pipeline.

Preferably, the heating means comprises one of:

1) The device comprises a porous ceramic electric heater arranged in a groove shape, wherein the porous ceramic electric heater is communicated with the lower part of the liquid storage device and is buckled and connected with the lower part of the liquid storage device;

2) The electric heating wire heating device comprises an electric heating wire heater formed by winding an electric heating wire and a liquid guide material, wherein the electric heating wire heater is connected with the lower part of the liquid storage device in an inserting and combining manner.

Preferably, the liquid storage device comprises a lower box body and an upper shell buckled on the outer side of the lower box body, the mist outlet pipeline is arranged in the center of the upper shell, the upper shell further extends downwards and forms a closed space for the heating device, and the mist inlet channel penetrates through the lower box body along the closed space in an upwards bent shape so as to be communicated with the mist outlet pipeline.

Preferably, the upper part of the lower box body is provided with a stepped counter bore for sleeving the mist outlet pipeline, and the inner wall of the lower counter bore of the stepped counter bore is communicated with the mist inlet channel which is bent upwards.

Preferably, the lower part of the lower box body is provided with a groove for accommodating the porous ceramic electric heater or the electric heating wire heater, and hollow holes communicated with the groove are formed at intervals on the periphery of the stepped counter bore.

Preferably, the heating device comprises a support leg integrally formed with the porous ceramic electric heater or the electric heating wire heater, a support base for supporting the lower box body and the support leg respectively is arranged below the lower box body, the enclosure space is also opposite to the support base, and the support base is provided with an air inlet communicated with the air flow device.

Preferably, the atomizer still includes to be located the circuit board between air current device, the support base, the stabilizer blade is the electrode needle, air current device includes the suction nozzle, the positive negative pole of electrode needle passes support base is pegged graft in the circuit board, the suction nozzle pass the circuit board with the air intake intercommunication.

Preferably, the liquid storage device, the heating device, the support bases and the air inlet nozzle are all three groups, and the three groups of support bases are arranged on the circuit board in a regular triangle arrangement mode.

Preferably, the atomizer includes the battery that is located circuit board below sets up, balancing weight, three sets of air current device, battery, balancing weight distribution range are in three sets of both sides of air current device.

Preferably, the atomizer includes the end cover, the end cover is umbelliform, the ascending fog outlet of opening has been seted up to the end cover up end, and three group's the decurrent fog outlet of opening have been seted up to the lower terminal surface, three groups the upper end of fog outlet respectively through three group's intercommunication pipelines with the lateral wall intercommunication of fog outlet, three groups the intercommunication pipeline with the umbelliform terminal surface of end cover is integrative to be set up.

Compared with the prior art, the atomizer has the following beneficial effects:

1) The structure is simple and novel, and the atomization effect is better;

2) The maintenance and the cleaning of the atomizer in the subsequent use process are convenient;

3) The monomer atomization effect of liquid under multiple different categories can be realized, and the mixed atomization effect of liquid under different categories can be realized by arbitrary combination control in order to selectively meet the diversified hobby demands among different groups, and the mixed atomization effect is also better.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, illustrate embodiments of the invention and together with the description serve to explain the invention and are not to limit the invention. In the drawings:

FIG. 1 is a perspective view of a pre-assembled construction of a reservoir apparatus according to embodiment 1 of the present invention;

FIG. 2 is a schematic perspective exploded view of FIG. 1;

FIG. 3 is a schematic diagram of a first exploded perspective view of an atomizer according to embodiments 1-2 of the present invention;

fig. 4 is a schematic perspective view of an upper case according to embodiment 1 of the present invention;

FIG. 5 is a first perspective view of a lower case according to embodiment 1 of the present invention;

FIG. 6 is a schematic perspective sectional view of a lower case according to embodiment 1 of the present invention;

FIG. 7 is a second perspective view of a lower case according to embodiment 1 of the present invention;

fig. 8 is a schematic perspective view of a silica gel ring according to embodiment 1 of the present invention;

fig. 9 is a schematic view of a first perspective structure of a heating apparatus according to embodiment 1 of the present invention;

FIG. 10 is a second perspective view of a heating apparatus according to embodiment 1 of the present invention;

fig. 11 is a schematic perspective view of a second supporting base according to embodiment 1 of the present invention;

fig. 12 is a schematic perspective view of an atomizer according to embodiment 2 of the present invention;

fig. 13 is a schematic diagram of a second exploded perspective view of an atomiser in accordance with embodiment 2 of the invention;

fig. 14 is a schematic perspective view of an end cap according to embodiment 2 of the present invention;

FIG. 15 is a schematic perspective cross-sectional view of an end cap according to embodiment 2 of the present invention;

fig. 16 is a schematic perspective view of another heating apparatus according to embodiment 3 of the present invention.

Description of reference numerals:

1-liquid storage device, 11-mist outlet pipeline, 12-mist inlet channel, 121-enclosed space, 13-lower box body, 131-groove, 132-stepped counter bore, 1321-lower counter bore inner wall, 133-hollowed hole, 14-upper shell, 141-liquid injection port, 15-silica gel ring, 2-heating device, 21-porous ceramic electric heater, 22-support leg, 221-electrode needle, 23-electric heating wire heater, 231-electric heating wire, 232-liquid guide material, 3-air flow device, 31-air inlet nozzle, 4-support base, 41-air inlet, 5-circuit board, 6-battery, 7-counterweight block, 8-end cover, 81-mist outlet port, 82-mist outlet nozzle, 83-communication pipeline, 84-plug, 9-outer shell and 91-lamp strip.

Detailed Description

In order to make the aforementioned objects, technical solutions and advantages of the present invention more comprehensible, the present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are only some of the embodiments constituting the present invention, and are not intended to limit the present invention, and the embodiments and features of the embodiments may be combined with each other without conflict.

Example 1

As shown in fig. 1 to 11, the present invention provides an atomizer, which comprises a liquid storage device 1, a heating device 2, and an airflow device 3, which are sequentially arranged from top to bottom, wherein the heating device 2 comprises a porous ceramic electric heater 21 arranged in a groove shape, the porous ceramic electric heater 21 is communicated with and fastened to the lower portion of the liquid storage device 1, a mist outlet pipe 11 is disposed on the upper portion of the liquid storage device 1, and a mist inlet channel 12 sequentially communicated with the airflow device 3 and the mist outlet pipe 11 is disposed on the lower portion of the liquid storage device 1.

Specifically, liquids such as aromatherapy essential oil or liquid medicine are stored in the liquid storage device 1, the lower portion of the liquid storage device 1 is arranged in a notch mode to be communicated with and buckled with the porous ceramic electric heater 21 arranged in a groove shape, a liquid portion located at the bottom of the liquid storage device 1 is stored in the porous ceramic electric heater 21 arranged in the groove shape, and the porous ceramic electric heater 21 only plays a role in sealing and storing the liquids in a non-working state.

When the atomizer works, the porous ceramic electric heater 21 heats the liquid stored in the groove, when the liquid is heated to a certain degree, the liquid starts to be atomized, atomized mist particles are filtered and separated from the lower part of the porous ceramic electric heater 21, and the airflow device 3 enters the mist outlet pipeline 11 along the mist inlet channel 12 under the action of the airflow from bottom to top, so that the heating atomization of the liquid and the accelerated flow of the atomized mist particles are realized. Compared with the atomizer in the prior art, the atomizer disclosed by the invention is simple and novel in structure and better in atomization effect.

Preferably, the liquid storage device 1 includes a lower box 13 and an upper housing 14 fastened to an outer side of the lower box 13, the mist outlet pipe 11 is disposed in a center of the upper housing 14, the upper housing 14 further extends downward and forms a surrounding space 121 for the heating device 2, and the mist inlet channel 12 penetrates the lower box 13 along the surrounding space 121 in an upward bending manner to communicate with the mist outlet pipe 11.

Specifically, go out fog pipeline 11 can set up in go up casing 14 central authorities, go up casing 14 top week side and can have seted up notes liquid mouth 141 in stock solution device 1, it is liquid to go out fog pipeline 11 periphery, go out fog pipeline 11 lower extreme need with advance fog passageway 12 upper end and form seamless intercommunication, in order to guarantee that liquid can not get into go out fog pipeline 11 and/or in advancing fog passageway 12, in order to avoid influencing the circulation of fog granule. By arranging the upper shell 14 to extend downwards and form the enclosed space 121 for the heating device 2, on one hand, the heating efficiency of the porous ceramic electric heater 21 on liquid is improved, on the other hand, atomized mist particles enter the enclosed space 121 after being filtered and separated from the lower part of the porous ceramic electric heater 21, the airflow from the bottom to the top of the mist particles by the airflow device 3 also acts in the enclosed space 121, and the enclosed space 121 can also be understood as a first part of the mist inlet channel 12. The fog inlet channel 12 is continuously arranged to penetrate through the lower box body 13 along the enclosed space 121 in an upward bending manner, so that a second part of the fog inlet channel 12 is formed, the fog outlet channel 11 avoids the seamless communication between the porous ceramic electric heater 21 and the fog outlet channel 11 positioned at the center, and the sealed storage of liquid after the porous ceramic electric heater 21 is communicated with the lower part of the liquid storage device 1 and is buckled and connected is ensured. Stock solution device 1 is including separation setting and lock connection box 13, last casing 14 down are favorable to convenient realization above-mentioned structural layout, also porous ceramic electric heater 21 only need with box 13 intercommunication and lock are connected down, in the follow-up use of atomizer in addition, also do benefit to the dismantlement inspection and the maintenance to the atomizer.

Preferably, a stepped counter bore 132 for sleeving the mist outlet pipeline 11 is formed in the upper portion of the lower box body 13, and a lower counter bore inner wall 1321 of the stepped counter bore 132 is communicated with the mist inlet channel 12 which is bent upwards.

After the upper portion of the stepped counter bore 132 is sleeved with the mist outlet pipeline 11, the upper portion is equivalent to an integral structure of the starting end of the mist outlet pipeline 11, the inner wall 1321 of the stepped counter bore 132 is communicated with the mist inlet channel 12, and is equivalent to a structure of the tail end of the mist inlet channel 12, so that the lower end of the mist outlet pipeline 11 is seamlessly communicated with the upper end of the mist inlet channel 12 by utilizing the integral structure of the stepped counter bore 132.

Furthermore, the upward bending shape is in a 7 shape.

The setting of the form of buckling upwards is only used for guaranteeing go out fog pipeline 11 avoid porous ceramic electric heater 21 with be located central authorities go out fog pipeline 11 seamless intercommunication, the form of buckling upwards is "7" style of calligraphy and can satisfy above-mentioned functional requirement, does benefit to simultaneously to improve the air current and carries the flow efficiency that the fog granule flows upwards with higher speed. Furthermore, the 7-shaped parts are two groups which are symmetrically distributed on two sides of the stepped counter bore 132, the 7-shaped parts are communicated at the upper parts, and two side ends of the 7-shaped parts are overlapped with two side edges of the lower box body 13. Therefore, the overall structural strength of the lower box body 13 is enhanced, the overall structural layout of the lower box body 13 is facilitated, and under the structural arrangement, a silica gel ring 15 can be installed between the lower box body 13 and the upper shell 14, so that liquid is prevented from flowing into the 7-shaped mist inlet channel 12 from a gap between the lower box body 13 and the upper shell 14.

Preferably, the heating device 2 includes a supporting leg 22 integrally formed with the porous ceramic electric heater 21, a supporting base 4 for supporting the lower box 13 and the supporting leg 22 respectively is disposed below the lower box 13, the enclosure space 121 further encloses the supporting base 4, and the supporting base 4 is provided with an air inlet 41 communicated with the air flow device 3.

Specifically, the airflow from bottom to top generated by the airflow device 3 enters the enclosed space 121 below the porous ceramic electric heater 21 through the air inlet 41, and the arrangement of the support legs 22 is, on one hand, under the support of the support legs 22, more favorable for the porous ceramic electric heater 21 to be suspended above the air inlet 41 and to be kept stable, and further favorable for the mist particles to more smoothly enter the upward bent mist inlet channel 12 from the enclosed space 121; on the other hand, the supporting leg 22 may also be an electrode pin 221, which directly penetrates through the supporting base 4 and is connected with the circuit board 5 to supply power to the porous ceramic electric heater 21. It is understood that the ceramic foam electric heater 21 may be suspended above the air inlet 41 by being snap-fitted into the lower housing 13, and may be electrically driven by being directly connected through a wire.

Preferably, the atomizer further includes a circuit board 5 located between the airflow device 3 and the support base 4, the support leg 22 is an electrode needle 221, the airflow device 3 includes an air inlet nozzle 31, the positive electrode and the negative electrode of the electrode needle 221 penetrate through the support base 4 and are inserted into the circuit board 5, and the air inlet nozzle 31 penetrates through the circuit board 5 and is communicated with the air inlet 41.

The porous ceramic electric heater 21 is powered through the arrangement of the electrode needle 221 and the circuit board 5, so that the start-stop control of the porous ceramic electric heater 21 is facilitated; through the arrangement of the air inlet nozzle 31, the air flow of the air flow device 3 can conveniently pass through the circuit board 5 and enter the enclosed space 121. Further, the air flow device 3 includes an air pump, and is also electrically connected to the circuit board 5. Further, the power source of the atomizer may be a battery 6 electrically connected to the circuit board 5.

Preferably, a groove 131 for accommodating the porous ceramic electric heater 21 is formed in the lower portion of the lower case 13, and hollow holes 133 communicated with the groove 131 are formed at intervals around the stepped counter bore 132.

In the non-working state, it is necessary to ensure both the sealed storage of the liquid and the storage of a part of the liquid in the groove of the porous ceramic electric heater 21, and in the atomizing working state, it is necessary to ensure that the liquid in the groove of the porous ceramic electric heater 21 is instantly replenished after the atomizing consumption. After the lower box 13 is fastened and connected with the upper shell 14, the porous ceramic electric heater 21 is also connected with the lower part of the lower box 13, namely, is communicated with and fastened and connected with the groove 131, and the arrangement of the groove 131 can also doubly ensure that the porous ceramic electric heater 21 is suspended above the air inlet 41; the arrangement of the hollow holes 133 meets the requirements of sealing storage of liquid in a non-working state and directional flow in an atomizing working state, and avoids the stepped counter bore 132 skillfully, so that the liquid can only flow into the groove of the porous ceramic electric heater 21 through the hollow holes 133, and the interference of the mist outlet pipeline 11 and/or the mist inlet channel 12 cannot be caused.

Further, the hollow holes 133 are arranged in a step shape.

The hollow holes 133 are arranged in a step shape, which is equivalent to increase the force-bearing area of the liquid at the bottom of the liquid storage device 1, thereby properly dispersing and relieving the pressure of the liquid on the porous ceramic electric heater 21, and making the suspension state of the porous ceramic electric heater 21 more stable. Furthermore, two groups of the hollow holes 133 are symmetrically distributed on two sides of the stepped counter bore 132, and a central connecting line of the two groups of the hollow holes 133 is perpendicular to a central connecting line of the 7-shaped holes on a horizontal projection plane. Thereby, the overall structural layout of the lower case 13 can be further optimized.

Example 2

The present embodiment is further optimized for the combined arrangement of the liquid storage device on the basis of embodiment 1.

As shown in fig. 3 and fig. 12 to 15, the liquid storage device 1, the heating device 2, the supporting base 4, and the air inlet nozzle 31 are three groups, and the three groups of supporting bases 4 are arranged on the circuit board 5 in a regular triangle arrangement.

Through setting up stock solution device 1, heating device 2, support base 4, suction nozzle 31 are three groups, both can each group of independent control open and stop of heating device 2 to realize the monomer atomization effect of liquid under the multiple different categories, also can make up control three groups wantonly open and stop of heating device 2 to the selective realization is to the hybrid atomization effect of liquid under the different categories, thereby satisfies the diversified hobby demand between different groups. It is understood that three sets of the supporting bases 4 may be arranged in a straight line or in other arrangements, and it is understood that three sets are herein understood to mean a plurality of sets, for example, four sets may be arranged in a regular quadrilateral arrangement. Further, the air flow device 3 includes an air pump, and the air pump may also be provided with three sets or three air outlet ports, so that when the start-stop control of a single set or any combination of three sets of the heating devices 2 is implemented, the start-stop of the corresponding air pump may also be synchronously controlled, or the opening and closing of the corresponding air outlet ports may also be synchronously controlled.

Preferably, the atomizer includes a battery 6, a counterweight 7 and three groups of the airflow devices 3, which are arranged below the circuit board 5, and the battery 6 and the counterweight 7 are distributed and arranged on two sides of the three groups of the airflow devices 3.

The power of atomizer can be for with 5 electricity of circuit board are connected battery 6, it is right to be used for heating device 2, air flow device 3 supply power and open and stop control, work as air flow device 3 is three groups and when being regular triangle arrangement form, more do benefit to right air flow device 3's lectotype design reduces purchasing cost, being provided with of balancing weight 7 helps the holistic support balance of atomizer.

Preferably, the atomizer includes end cover 8, end cover 8 is umbelliform, end cover 8 up end has seted up the ascending fog outlet 81 of opening, and the lower terminal surface has seted up three group opening down fog outlet 82, three groups the upper end of fog outlet 82 respectively through three group intercommunication pipelines 83 with the lateral wall intercommunication of fog outlet 81, three groups intercommunication pipeline 83 with end cover 8's umbelliform terminal surface is integrative to be set up.

Stock solution device 1 is three groups, and is corresponding, it also is three groups to go out fog pipeline 11, when the selectivity realizes the hybrid atomization effect to liquid under the different categories, the setting of end cover 8 can be so that the hybrid atomization of liquid has more sufficient mixing time under the different categories to further improve hybrid atomization effect. Further, three sets of the communication pipes 83 are opened at the end far away from the mist outlet 81, and are provided with plugs 84. In a normal state, the plug 84 is in a plugged state, and the plug 84 can be pulled out if necessary, so as to facilitate maintenance and cleaning of the mist outlet pipeline 11, the mist outlet nozzle 82, the communication pipeline 83 and the like.

Preferably, the atomizer comprises an outer housing 9, and a light strip 91 is provided on the outer housing 9.

The shell body 9 can be with circuit board 5, battery 6, balancing weight 7 and three groups stock solution device 1, three groups air current device 3 etc. all wraps in to improve the whole pleasing to the eye and safety, the protection against the tide of atomizer, the setting up of lamp area 91 makes things convenient for the use at night. Further, an air pump air inlet, a main switch, a lamp strip switch, a wireless receiver, an indicator light, a USB socket and the like can be further arranged on the outer shell 9, so that the atomizer can be further conveniently used, and air can be further conveniently fed into the air flow device 3.

Example 3

This example is another optimization for a heating apparatus based on examples 1-2.

As shown in fig. 16, the heating device 2 includes a heating wire heater 23 formed by winding a heating wire 231 and a liquid guiding material 232, and the heating wire heater 23 is inserted into and connected to a lower portion of the liquid storage device 1.

Specifically, the liquid such as aromatherapy essential oil or liquid medicine is stored in the liquid storage device 1, and the lower portion of the liquid storage device 1 is provided with a notch so as to be connected with the electric heating wire heater 23 in an inserting manner. In the non-operating state, the liquid guiding material 232 is soaked by the liquid at the bottom of the liquid storage device 1 and also plays a role of sealing and storing the liquid, for example, the liquid guiding material 232 may be a liquid guiding cotton core.

Atomizer during operation, heating wire heater 23, airflow device 3 all start operating condition, heating wire 231 generates heat, lead liquid material 232 both with heating wire 231 twines, soaks in order to play the liquid guide effect in liquid simultaneously again, works as heating wire 231 heats to a certain extent, through fully infiltrating liquid material 232 in liquid material 232 liquid outwards volatilizees and produces the atomizing, and the fog granule after the atomizing is in airflow device 3 is under the air current effect from bottom to top, follows into fog passageway 12 gets into go out fog pipeline 11 to realize the heating atomization of liquid and the acceleration of atomizing back fog granule flow.

Namely: compared with the groove-shaped arrangement, the porous ceramic electric heater 21 is communicated with the lower part of the liquid storage device 1 and is buckled and connected with the lower part of the liquid storage device 1, and the electric heating wire heater 23 is inserted and connected with the lower part of the liquid storage device 1, so that the equivalent technical effect can be achieved.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (8)

1. An atomizer, characterized by: the mist spraying device comprises a liquid storage device (1), a heating device (2) and an air flow device (3) which are sequentially arranged from top to bottom, wherein a mist outlet pipeline (11) is formed in the upper part of the liquid storage device (1), and a mist inlet channel (12) which is sequentially communicated with the air flow device (3) and the mist outlet pipeline (11) is formed in the lower part of the liquid storage device;

the liquid storage device (1) comprises a lower box body (13) and an upper shell (14) buckled on the outer side of the lower box body (13), a stepped counter bore (132) used for being sleeved with the mist outlet pipeline (11) is formed in the upper portion of the lower box body (13), a groove (131) used for containing the heating device (2) is formed in the lower portion of the lower box body, and hollow holes (133) communicated with the groove (131) are formed in the peripheral side of the stepped counter bore (132) at intervals;

the mist inlet channel (12) is bent upwards along the enclosed space (121) and penetrates through the lower box body (13) to the inner wall (1321) of the lower sink hole of the stepped sink hole (132).

2. A nebulizer as claimed in claim 1, wherein: the heating device (2) comprises one of the following:

1) The device comprises a porous ceramic electric heater (21) arranged in a groove shape, wherein the porous ceramic electric heater (21) is communicated with the lower part of the liquid storage device (1) and is buckled and connected with the lower part of the liquid storage device;

2) The liquid storage device comprises an electric heating wire heater (23) formed by winding an electric heating wire (231) and a liquid guide material (232), wherein the electric heating wire heater (23) is connected with the lower part of the liquid storage device (1) in an inserting and combining manner.

3. A nebulizer as claimed in claim 2, wherein: the mist outlet pipeline (11) is arranged in the center of the upper shell (14), and the upper shell (14) also extends downwards and forms the enclosed space (121) for the heating device (2).

4. A nebulizer as claimed in claim 3, wherein: heating device (2) include with porous ceramic electric heater (21) or heating wire heater (23) are stabilizer blade (22) that integrated into one piece set up, box (13) below is provided with and is used for supporting respectively support base (4) of box (13), stabilizer blade (22) down, it is still right to enclose to close space (121) support base (4) formation encloses, support base (4) set up with air intake (41) of air current device (3) intercommunication.

5. A nebulizer as claimed in claim 4, wherein: the atomizer is still including being located circuit board (5) between air flow device (3), support base (4), stabilizer blade (22) are electrode needle (221), air flow device (3) include suction nozzle (31), the positive negative pole of electrode needle (221) is passed support base (4) are pegged graft in circuit board (5), suction nozzle (31) are passed circuit board (5) with air intake (41) intercommunication.

6. A nebulizer as claimed in claim 5, wherein: stock solution device (1), heating device (2), support base (4), suction nozzle (31) are three groups, three groups support base (4) be regular triangle arrangement form set up in on circuit board (5).

7. A nebulizer as claimed in claim 6, wherein: the atomizer comprises a battery (6), a balancing weight (7) and three groups of airflow devices (3), wherein the battery (6), the balancing weight (7) and the three groups of airflow devices (3) are arranged below the circuit board (5), and the battery (6) and the balancing weight (7) are distributed and arranged on two sides of the three groups of airflow devices (3).

8. A nebulizer as claimed in claim 5 or 6, wherein: the atomizer includes end cover (8), end cover (8) are umbelliform, the ascending fog outlet of opening (81) has been seted up to end cover (8) up end, and three sets of opening fog outlet (82) down have been seted up to the lower terminal surface, and three sets of the upper end of fog outlet (82) respectively through three sets of intercommunication pipeline (83) with the lateral wall intercommunication of fog outlet (81), three sets of intercommunication pipeline (83) with the umbelliform terminal surface of end cover (8) is an organic whole and sets up.

Images