CN217242693U - Atomizing device and electron cigarette of electron cigarette - Google Patents

Abstract

The application discloses atomizing device and electron cigarette of electron cigarette. Atomizing device of electron cigarette includes: cigarette bullet pipe, atomization component and oil absorption piece, the oil storage storehouse and the flue gas passageway that the interval set up are seted up to the cigarette bullet pipe, the oil storage storehouse intercommunication flue gas passageway, atomization component set up in among the flue gas passageway, be used for following the tobacco tar heating atomization that the oil storage storehouse flowed in forms smog, the oil absorption piece is connected flue gas passageway, the oil absorption piece be used for adsorbing not by atomization component atomizing tobacco tar or condensate. Through above-mentioned mode, oil absorption piece among the atomizing device of this application can adsorb tobacco tar or condensate, prevents to remain the tobacco tar in the flue gas passageway or the trouble that the condensate produced.

Description

Atomizing device and electron cigarette of electron cigarette

Technical Field

The application relates to the technical field of electronic cigarettes, in particular to an atomization device of an electronic cigarette and the electronic cigarette.

Background

The electronic cigarette is a kind of electronic product imitating cigarette, and its atomizer can produce steam for the user to suck by heating the tobacco tar in the oil storage cavity.

All will install miaow head sensor on present electron cigarette, generally set up on the inlet channel of electron cigarette for whether the response user has the smoking action. However, in the using process of the electronic cigarette, the tobacco tar or the condensate in the electronic cigarette cartridge may enter the air inlet channel and may permeate into the microphone sensor, so that the microphone sensor has the problems of inflexible sensing and damage, and even may have the risk of causing fire due to short circuit.

SUMMERY OF THE UTILITY MODEL

The main technical problem who solves of this application provides an atomizing device and electron cigarette of electron cigarette, can prevent that the tobacco tar in the electron cigarette from entering into in the miaow head sensor.

In order to solve the technical problem, the application adopts a technical scheme that: provided is an atomization device of an electronic cigarette, including: cigarette bullet pipe, atomization component and oil absorption piece, the oil storage storehouse and the flue gas passageway that the interval set up are seted up to the cigarette bullet pipe, the oil storage storehouse intercommunication flue gas passageway, atomization component set up in among the flue gas passageway, be used for following the tobacco tar heating atomization that the oil storage storehouse flowed in forms smog, the oil absorption piece is connected flue gas passageway, the oil absorption piece be used for adsorbing not by atomization component atomizing tobacco tar or condensate.

In order to solve the above technical problem, another technical solution adopted by the present application is: the utility model provides an electron cigarette, including battery pack and the atomizing device of the electron cigarette that this application provided, the battery pack electricity is connected the atomizing device of electron cigarette, in order to supply with the electric energy to the atomizing device of electron cigarette.

The beneficial effect of this application is: be different from prior art's condition, the atomizing device of this application electron cigarette includes cigarette bullet pipe, atomization component and oil absorption piece, and the oil storage storehouse and the flue gas passageway that the interval set up are seted up to the cigarette bullet pipe, and atomization component sets up in flue gas passageway for the tobacco tar heating atomization formation smog that will flow in from the oil storage storehouse. The oil absorption piece is connected with the smoke channel, and the oil absorption piece can adsorb not by atomizing tobacco tar or condensate of atomization component to make tobacco tar or condensate can not enter into the miaow head sensor of electron cigarette, effectively improved the risk that malfunction appears in the electron cigarette miaow head.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of an electronic cigarette of the present application;

figure 2 is a schematic diagram of an exploded structure of the electronic cigarette in the embodiment of figure 1;

figure 3 is a schematic cross-sectional view of an embodiment of an electronic cigarette of the present application;

figure 4 is a schematic structural diagram of the atomizing assembly, the second oil absorbing member and the electrode plate in the electronic cigarette embodiment of figure 3;

figure 5 is a schematic diagram of an exploded structure of the cradle in the embodiment of the e-cigarette of figure 3.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

Please refer to fig. 1 and 2, fig. 1 is a schematic structural diagram of an embodiment of an electronic cigarette of the present application, and fig. 2 is a schematic structural diagram of an electronic cigarette in the embodiment of fig. 1. The electronic cigarette is a device for heating relevant parts through current so as to atomize tobacco tar into smoke for a user to suck.

Specifically, the electronic cigarette 01 includes an atomization device 10 of the electronic cigarette and a battery pack 20, and the atomization device 10 of the electronic cigarette is electrically connected to the battery pack 20. The battery assembly 20 is used for storing and supplying electric energy, the battery assembly 20 may include a cover 400 and a battery 500, the cover 400 is used for connecting with the atomization device 10 of the electronic cigarette and plays a role in sealing, the battery 500 is used for storing the battery, and the battery 500 may be a storage battery.

Further, the battery assembly 20 may further include a circuit board 410 and an interface 420, the circuit board 410 is electrically connected to the interface 420, the battery 500 is electrically connected to the circuit board 410, the circuit board 410 may control input and output of electric energy of the battery 500, and the battery 500 is charged through the circuit board 410 and the interface 420.

The atomization device 10 of the electronic cigarette is a heating element, and the atomization device 10 of the electronic cigarette is powered by the battery assembly 20 to be heated so as to atomize the tobacco tar into the smoke.

Referring to fig. 2 and fig. 3 together, fig. 3 is a schematic cross-sectional structure diagram of an embodiment of an electronic cigarette of the present application, wherein a straight arrow in fig. 3 indicates a flow direction of an air flow when smoking smoke.

The aerosolization device 10 of an electronic cigarette may include a cartridge tube 100, an aerosolization assembly 200, and a holder 300.

Wherein, a smoke channel 110 and an oil storage bin 120 which are arranged at intervals are arranged in the smoke cartridge tube 100, and the atomization component 200 is arranged in the smoke channel 110. The oil storage bin 120 is used for storing tobacco tar (not shown), and the tobacco tar can be heated and atomized by the atomizing assembly 200 to form smoke (not shown).

Optionally, an oil storage cotton (not shown) for storing the tobacco tar is disposed in the oil storage bin 120.

The oil storage bin 120 is provided with an oil outlet 1201 communicated with the smoke channel 110, the atomizing assembly 200 is arranged in the smoke channel 110 at a position opposite to the oil outlet 1201, smoke oil stored in the oil storage bin 120 can flow into the atomizing assembly 200 of the smoke channel 110 through the oil outlet 1201, and then is heated and atomized by the atomizing assembly 200 to form smoke to enter the smoke channel 110, and under the suction pressure of a user, the smoke in the smoke channel 110 flows and is sucked by a smoker.

In the actual use process, the smoke oil in the smoke channel 110 may not be completely heated and atomized by the atomizing assembly 200, or the condensate formed by the smoke may remain in the smoke channel 110, so that the smoke oil or the condensate in the smoke channel 110 flows into the microphone sensor in the electronic cigarette, which causes the problem of inflexible and damaged sensing of the microphone sensor.

Therefore, in the present embodiment, the atomization device 10 of the electronic cigarette includes an oil suction member (not numbered), the oil suction member is connected to the smoke channel 110, and the oil suction member can adsorb smoke or condensate in the smoke channel 110, so as to prevent the smoke or condensate from flowing into the microphone sensor of the electronic cigarette.

Specifically, the cartridge tube 100 includes a smoke outlet 1101 and an air inlet 1102, the smoke outlet 1101 and the air inlet 1102 communicating with the smoke channel 110. The aerosol formed by heating and atomizing the atomizing assembly 200 flows out from the smoke outlet 1101 to be sucked, and the air inlet 1102 is used for air inlet, so that the air pressure in the smoke channel 110 is kept balanced.

The oil absorbing member may include a first oil absorbing member 101 and a second oil absorbing member 102, the first oil absorbing member 101 is disposed on a side close to the smoke outlet 1101, and the second oil absorbing member 102 is disposed on a side close to the air inlet 1102.

Alternatively, the first oil absorbing member 101 and the second oil absorbing member 102 can be absorbent cotton, or other materials such as hydrogel and nonwoven fabrics for absorbing tobacco tar.

The smoke outlet 1101 is communicated with the outside, so that the smoke is easy to encounter the outside air, the smoke can be condensed to form condensate when encountering the outside air, and the first oil absorbing piece 101 can absorb the condensate at the smoke outlet 1101 to prevent the condensate from flowing into the smoke channel 110.

Optionally, the atomization device 10 of the electronic cigarette further includes a support 140, and the support 140 is fixed inside the cartridge 100 and used for supporting the first oil absorbing member 101.

For example, in the present embodiment, the support 140 is disposed adjacent to the oil storage bin 120, and the inner wall of the smoke tube 100 and the outer wall of the oil storage bin 120 enclose and fix the support 140. The first oil absorbing member 101 is supported on the supporting member 140. The supporting member 140 is provided with a first through hole 1401, and the first oil suction member 101 is provided with a second through hole 1011, wherein the smoke channel 110, the first through hole 1401, the second through hole 1011 and the smoke outlet 1101 are communicated in sequence. The atomization component 200 in the smoke channel 110 heats the tobacco tar to atomize to form smoke, and in the process of being sucked by a smoker, the smoke flows to the outside sequentially through the smoke channel 110, the first through hole 1401, the second through hole 1011 and the smoke outlet 1101. And the first through hole 1401 and the smoke or condensate (for example, the second through hole 1011, the smoke outlet 1101) near the first through hole 1401 are adsorbed by the first oil absorbing member 101.

Alternatively, the supporting member 140 may be made of a material such as sealant, sealing grease, or metal.

During smoking by a smoker, the air inlet 1102 of the cartridge tube 100 is generally located below the smoke outlet 1101 of the cartridge tube 100, so that the tobacco smoke in the smoke channel 110 flows into the air inlet 1102 under the influence of gravity. The second oil absorption piece 102 can absorb the smoke around the air inlet 1102, so that the smoke is prevented from further flowing into a microphone sensor of the electronic cigarette, and the use safety of the electronic cigarette is guaranteed.

Specifically, the atomization device 10 of the electronic cigarette further includes an atomization base 150. The atomizing base 150 is disposed on one side of the air inlet 1102 and is connected to the cartridge tube 100.

The atomizing base 150 is provided therein with a first air inlet channel 130 and an accommodating space 160, the first air inlet channel 130 communicates with the air inlet 1102 and the accommodating space 160, and communicates with the flue gas channel 110 through the air inlet 1102. The gas in the accommodating space 160 can enter the flue gas channel 110 through the first gas inlet channel 130 and the gas inlet 1102 to keep the gas pressure in the flue gas channel 110 balanced.

The second oil suction member 102 is disposed in the accommodation space 160 opposite to the first air intake passage 130.

During the process of smoking, the second oil suction member 102 is located below the cartridge tube 100, and the tobacco smoke in the smoke passage 110 of the cartridge tube 100 is influenced by gravity and flows from the air inlet 1102 to the accommodating space 160. And the second oil suction member 102 can receive and adsorb the smoke in the accommodating space 160, so as to prevent the smoke from flowing into the microphone sensor of the electronic cigarette.

Referring to fig. 2, fig. 3 and fig. 4, fig. 4 is a schematic structural diagram of the atomizing assembly, the second oil sucking member and the electrode plate in the embodiment of fig. 3.

The atomization device 10 of the electronic cigarette may further include an electrode plate 170 and an electrode 320, where the electrode plate 170 is disposed in the accommodating space 160 and stacked with the second oil absorption member 102.

The atomizing assembly 200 may specifically include an oil guide seat 201 and a heat generating element 202, where the oil guide seat 201 is disposed near the oil outlet 1201, and may be inserted in the oil outlet 1201, for example, for receiving the smoke from the oil storage bin 120.

Alternatively, the oil guide 201 is made of a porous ceramic material, which is generally a ceramic material sintered at a high temperature by using components such as aggregates, binders, pore-forming agents, etc., and has a plurality of porous structures inside thereof communicating with each other and with the surface of the material. The porous ceramic material has the excellent performances of high porosity, stable chemical property, large specific surface area, small volume density, low thermal conductivity, high temperature resistance, corrosion resistance and the like.

Alternatively, the heat generating member 202 may be at least one of a heat generating coating, a heat generating circuit, a heat generating sheet or a heat generating net, for example, in this embodiment, the heat generating member is a heat generating resistance wire, and the heat generating resistance wire may be bent to increase a contact area with the ceramic oil guide seat 41.

The heating element 202 is wound on the oil guide seat 201 and electrically connected to the electrode plate 320, for example, in this embodiment, the heating element 202 is electrically connected to the electrode plate 320 through a wire 203, and the heating element 202 is led from the electrode plate 320 in the accommodating space 160, passes through the second oil absorbing element 102, the first air inlet passage 130 and the air inlet 1102, enters the flue gas passage 110, and is connected to the heating element 202.

The electrodes 320 are arranged on the top of the bracket 300 in a penetrating manner, the electrodes 320 are electrically connected with the electrode plate 170 and the battery 500 of the electronic cigarette and used for guiding electric energy to the atomizing assembly 200, and the number of the electrodes 320 can be 2 so as to connect the positive electrode and the negative electrode of the battery 500.

Further, the atomizing base 150 is further provided with a base air inlet 1711, and the base air inlet 1711 is communicated with the accommodating space 160 and is used for introducing air into the accommodating space 160 to keep the air pressure of the accommodating space 160 balanced.

In this embodiment, the base air inlet 1711 is disposed in the electrode plate 170, the electrode plate 170 is mounted at the bottom of the atomizing base 150, and the base air inlet 1711 penetrates both sides of the electrode plate 170.

Meanwhile, optionally, the number of the base air inlets 1711 may be multiple, and the multiple base air inlets 1711 surround the second oil suction member 102 and are disposed in a staggered manner with the first air inlet passage 130. The first air inlet passage 130 and the second oil absorption piece 102 are arranged oppositely, so that the smoke from the smoke passage 110 falls onto the second oil absorption piece 102 and is absorbed by the second oil absorption piece 102, and the smoke cannot enter the base air inlet 1711, thereby protecting the use safety of the electronic cigarette.

Referring to fig. 2, 3 and 5, fig. 5 is a schematic diagram of an exploded structure of a bracket in the embodiment of the electronic cigarette of fig. 3.

In this embodiment, the bracket 300 and the cartridge tube 100 are close to the side connected to the atomizing base 150, and the atomizing base 150 is enclosed by the bracket 300 and the cartridge tube 100.

The bracket 300 is provided with a second air inlet passage 310, and the second air inlet passage 310 is communicated with the outside and the base air inlet 1711 to guide the outside air into the accommodating space 160. When the smoke is sucked, the external air enters the smoke channel 110 through the second air inlet channel 310, the accommodating space 160 and the first air inlet channel 130, so that the air pressure in the smoke channel 110 is balanced.

Further, the atomization device 10 of the electronic cigarette further includes a microphone sensor 340, the microphone sensor 340 is connected to the second air inlet channel 310, when a smoker takes a puff, the second air inlet channel 310 is caused to flow, and the microphone sensor 340 can detect the flow of the second air inlet channel 310, so as to control the atomization device 10 of the electronic cigarette to atomize the tobacco tar.

In the present embodiment, the second air intake passage 310 is disposed around the sidewall of the bracket 300, so as to prevent the second air intake passage 310 from directly flowing into the microphone sensor 340, and protect the microphone sensor 340.

Specifically, the bracket 300 includes a housing 301 and a bracket body 302, and the housing 301 is sleeved on the outer periphery of the bracket body 302. The outer wall of the bracket body 302 is provided with a fastening portion 2021, the inner wall of the housing 301 is provided with a corresponding slot portion (not shown), and when the housing 301 is sleeved on the periphery of the bracket body 302, the fastening portion 2021 is fastened with the slot portion to fix the housing 301 and the bracket body 302.

When the housing 301 and the holder body 302 are connected, one end of the housing 301 is connected to the cartridge tube 100, and the other end is connected to the lid body 400.

An electrode groove 3023 is formed in one side of the holder body 302 close to the smoke tube 100, the electrode groove 3023 is used for inserting the electrode 320, and the electrode groove 3023 is opposite to the electrode plate 170.

Optionally, the outer wall of the stent body 302 is further provided with a sealing position 3022, the sealing position 3022 surrounds the outer wall of the stent body 302 for a circle, a sealing ring 3024 is arranged in the sealing position 3022, and when the shell 301 is sleeved on the outer periphery of the stent body 302, the sealing ring 3024 can seal between the shell 301 and the stent body 302.

In the present embodiment, the second air intake passage 310 is an air guide groove provided on the outer periphery of the holder body 302 and opens on the outer periphery of the holder body 302. When the housing 301 is connected to the holder body 302, the housing 301 and the holder body 302 enclose the second air intake passage 310, and the housing 301 blocks the second air intake passage 310 from the outside. Alternatively, the second air intake passage 310 may be a strip-shaped air guide groove, an arc-shaped air guide groove, or an air guide groove bent multiple times.

In this embodiment, a vent 3102 is provided on the side of the holder body 302 close to the smoke bomb tube 100, the vent 3102 is provided adjacent to the electrode groove 3023, a holder air inlet 3101 is provided on the side close to the lid 400 away from the smoke bomb tube 100, the vent 3102 and the holder air inlet 3101 are respectively communicated with the second air inlet passage 310, the holder air inlet 3101 is communicated with the outside, the vent 3102 is communicated with the base air inlet 1711, and the holder air inlet 3101 introduces the outside air into the second air inlet passage 310, the vent 3102 and the base air inlet 1711 in sequence.

Optionally, the vent 3102 is offset from the base air inlet 1711 such that tobacco smoke within the base air inlet 1711 does not fall directly into the vent 3102.

Alternatively, the cover 400 may be further provided with a cover inlet port 401 communicating with the rack inlet port 3101, and the cover inlet port 401 directly communicates with the outside to introduce an external space into the rack inlet port 3101.

The microphone sensor 340 is connected to the side closer to the bracket inlet 3101 than the vent 3102, and the microphone sensor 340 is connected to the side closer to the bracket inlet 3101 of the second air intake passage 310.

If smoke or condensate is accumulated in the accommodating space 160 due to long-term use, and the smoke or condensate enters the base air inlet 1711, the smoke or condensate cannot enter the ventilation port 3102 and the second air inlet passage 310 due to the staggered arrangement of the ventilation port 3102 and the base air inlet 1711. Even if smoke or condensate enters the inside of the second air intake passage 310, it passes through the second air intake passage 310 provided around the side wall of the bracket 300 to reach the microphone sensor 340. Therefore, the head sensor 340 in the electronic atomizer 10 of the present embodiment has high safety, and the problem of smoke or condensate entering the head sensor 340 to cause the head sensor 340 to malfunction is greatly reduced.

Further, the bracket body 302 is further provided with an air guide channel 330, the air guide channel 330 and the second air inlet channel 310. Specifically, the air guide passage 330 is also an air guide groove provided at the outer periphery of the stand body 302, and the air guide passage 330 is disposed adjacent to the second air intake passage 310. The flow from the strut inlet 3101 into the second inlet channel 310 will continue partly along the second inlet channel 310 to the vent 3102 and partly to the air guide channel 330.

The air guide channel 330 is connected with the sensing end of the microphone sensor 340, when a smoker sucks smoke to force outside air to enter the support air inlet 3101, the air guide channel 330 can also enter certain air flow, the air pressure is increased, and the microphone sensor 340 detects the increase of the air pressure to recognize the sucking action.

Therefore, in the present embodiment, the microphone sensor 340 is not directly disposed on the second air inlet channel 310, but the air flow is guided into the microphone sensor 340 through the air guide channel 330, so that the microphone sensor 340 can correctly recognize the sucking action, and the smoke or condensate in the second air inlet channel 310 can be prevented from entering the microphone sensor 340, thereby improving the safety of the microphone sensor 340.

Referring to fig. 3 and the straight arrow lines (indicating the flow direction of the air flow) in fig. 3, when the smoker sucks on the cigarette outlet 1101, the internal air pressure of the electronic cigarette is reduced, and the outside air enters the bracket air inlet 3101 and the second air inlet passage 310 from the cover air inlet 401 of the cover 400. A part of the air continues to flow along the second air inlet channel 310 to the air vent 3102, another part of the air flows to the air guide channel 330, and the microphone sensor 340 detects the air flowing into the air guide channel 330 and recognizes the sucking action. The gas flowing to the vent 3102 flows to the base air inlet 1711, enters the accommodating space 160 from the base air inlet 1711, and then flows into the smoke channel 110 through the first air inlet channel 130 and the air inlet 1102. When the smoke channel 110 flows, the atomized smoke in the smoke channel 110 flows together with the atomized smoke of the atomizing assembly 200, and the smoke is guided from the smoke channel 110, the first through hole 1401 and the second through hole 1011 to the smoke outlet 1101 to be sucked.

Meanwhile, the first oil absorption piece 101 and the second oil absorption piece 102 arranged on the electronic cigarette and the atomization device thereof can absorb smoke oil or condensate in the channel, so that the smoke oil or condensate is prevented from being accumulated in the channel, and the fault caused by soaking the microphone sensor 340 in liquid is avoided; the air guide channel 330 arranged in the bracket 300 can further prevent smoke or condensate from directly flowing into the microphone sensor 340, thereby further enhancing the use safety of the microphone sensor 340.

The problem of remaining tobacco tar infiltration in present electron cigarette miaow head sensor easily receives inlet channel has been improved to the electron cigarette and atomizing device thereof of event, has improved the safety in utilization, yield and the life of electron cigarette and atomizing device thereof.

In addition to the above embodiments, those skilled in the art can obtain more embodiments without invasive labor according to the principles of the present application, and all electronic cigarettes or atomizers of electronic cigarettes that are the same or similar and solve the problem of negative pressure in the oil storage cavity by preventing the smoke oil in the oil storage cavity from entering the waterproof and breathable material and allowing the gas to permeate through the oil storage cavity by means of the characteristics of the waterproof and breathable material fall within the protection scope of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specified otherwise. The above description is only an example of the present application, and is not intended to limit the scope of the present application, and all equivalent structures or equivalent processes performed by the present application and the contents of the attached drawings, which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. An atomization device for an electronic cigarette, comprising: cigarette bullet pipe, atomization component and oil absorption piece, the oil storage storehouse and the flue gas passageway that the interval set up are seted up to the cigarette bullet pipe, the oil storage storehouse intercommunication the flue gas passageway, atomization component set up in among the flue gas passageway, be used for following the tobacco tar heating atomization that the oil storage storehouse flowed in forms smog, the oil absorption piece is connected the flue gas passageway, the oil absorption piece be used for adsorbing not by atomization component atomizing tobacco tar or condensate.

2. Atomizing device according to claim 1,

the cigarette cartridge tube comprises a cigarette outlet and an air inlet, the cigarette outlet is communicated with the air inlet to the smoke channel, the oil absorption piece comprises a first oil absorption piece and a second oil absorption piece, the first oil absorption piece is arranged on one side of the cigarette outlet, and the second oil absorption piece is arranged on one side of the smoke channel close to the air inlet.

3. Atomizing device according to claim 2,

atomizing device includes support piece, support piece fixes the flue gas passageway is close to the one end of outlet flue, first oil absorption piece is fixed support piece is last, support piece is equipped with first through-hole, first oil absorption piece is equipped with the second through-hole, the flue gas passageway first through-hole the second through-hole with the outlet flue intercommunication, the warp the smog that the atomizing component atomizing formed passes through in proper order the flue gas passageway first through-hole the second through-hole the outlet flue flows to the external world.

4. Atomizing device according to claim 2,

atomizing device includes the atomizing base, be equipped with in the atomizing base with first inlet channel, accommodation space and the base air inlet of air inlet intercommunication, the accommodation space respectively with first inlet channel with base air inlet intercommunication, the second oil absorption piece is located in the accommodation space.

5. Atomizing device according to claim 4,

the atomizing device comprises a plate electrode, the plate electrode is arranged in the accommodating space, the second oil absorption piece is stacked with the plate electrode, the second oil absorption piece is closer to the air inlet relative to the plate electrode, and the plate electrode is electrically connected with the atomizing assembly.

6. Atomizing device according to claim 5,

the atomization assembly comprises an oil guide seat and a heating piece, and the oil guide seat is used for receiving tobacco tar flowing from the oil storage bin; the heating element is wound on the oil guide seat, the heating element is electrically connected with the electrode plate and used for generating heat under the action of current, the heating element is guided to smoke on the heating element through the oil guide seat and atomized into smoke, the oil guide seat is arranged opposite to the second oil absorption element, and the second oil absorption element can adsorb the smoke flowing into the oil guide seat.

7. The atomizing device according to any one of claims 1 to 6,

the atomizing device further comprises a support and a microphone sensor, the support is connected with the smoke bomb tube, the support is provided with a second air inlet channel, the second air inlet channel is communicated with the smoke channel and the outside, and the microphone sensor is connected with the second air inlet channel.

8. Atomizing device according to claim 7,

the second air inlet channel is wound on the side wall of the support.

9. Atomizing device according to claim 7,

the microphone is characterized in that the support is further provided with an air guide channel, the air guide channel is communicated with the second air inlet channel, and the sensing end of the microphone sensor is connected with the air guide channel.

10. An electronic cigarette, comprising a battery assembly and the atomization device of the electronic cigarette according to any one of claims 1 to 9, wherein the battery assembly is electrically connected to the atomization device of the electronic cigarette to supply electric energy to the atomization device of the electronic cigarette.

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