CN110101120A - Atomizer and electronic atomization device - Google Patents

Abstract

The present invention relates to a kind of atomizer (20), comprising: shell (100), the liquid outlet channel (106) that is provided with the liquid storage chamber (103) for storing liquid and can be connected to liquid storage chamber (103)；Atomizing component (200) is mounted on shell (100), and liquid storage chamber (103) can supply liquid to atomizing component (200) by liquid outlet channel (106)；And on-off component (300), it is connect with shell (100) and there is the first station (11) and second station (12)；When on-off component (300) are located at the first station (11), on-off component (300) blocks liquid outlet channel (106)；When on-off component (300) is located at second station (12), on-off component (300) opens wide liquid outlet channel (106).

Description

Atomizer and electronic atomization device

Technical field

The present invention relates to electronic atomized technical fields, more particularly to a kind of atomizer and include the electronic fog of the atomizer Makeup is set.

Background technique

Aerosol can be generated the liquid such as matrix and is atomized by electronic atomization device, and aerosol generates shape after matrix atomization At smog in without the harmful components such as tar and suspended particulate so that electronic atomization device can be used as the substitute of cigarette. For traditional electronic atomization device, when stopping suction, there are oil leakage phenomenons for electronic atomization device.

Summary of the invention

The technical problem that the present invention solves is how to prevent atomizer from generating leakage.

A kind of atomizer of electronic atomization device, comprising:

Shell, the liquid outlet channel that is provided with the liquid storage chamber for storing liquid and can be connected to the liquid storage chamber；

Atomizing component, on the housing, the liquid storage chamber can be by the liquid outlet channel to the atomization group for installation Part supplies liquid；And

On-off component connect with the shell and has the first station and second station；

When the on-off component is located at first station, the on-off component blocks the liquid outlet channel；When described When on-off component is located at the second station, the on-off component opens wide the liquid outlet channel.

A kind of electronic atomization device, including battery component, inductive component and any of the above-described atomizer, the battery Component is connect with the atomizer.

One of one embodiment of the present of invention has the technical effect that when needing using atomizer, can be by on-off component In second station, so that on-off component opens wide liquid outlet channel, liquid storage chamber can supply liquid to atomizing component by liquid outlet channel Body, so that atomizing component is atomized and is realized the unlatching of atomizer to liquid；When stopping using atomizer, by on-off component In the first station, so that on-off component blocks liquid outlet channel, liquid storage chamber stops supplying liquid to atomizing component, prevent liquid from It is revealed in atomizing component, so that the atomizer for being in the state of shelving because deactivating effectively be avoided to generate liquid leakage.

Detailed description of the invention

Fig. 1 is the integral installation distribution structure schematic diagram for the electronic atomization device that an embodiment provides；

Fig. 2 is integral installation distribution structure schematic diagram of the Fig. 1 under another visual angle；

Fig. 3 is the integral installation distribution structure schematic diagram of atomizer in Fig. 1；

Fig. 4 is in perspective cross-sectional structural schematic diagram when the first station for on-off component in Fig. 3；

Fig. 5 is in plan cross-section structural schematic diagram when the first station for on-off component in Fig. 3；

Fig. 6 is in plan cross-section structural schematic diagram when second station for on-off component in Fig. 3；

Fig. 7 is the perspective cross-sectional structural schematic diagram of shell in Fig. 3；

Fig. 8 is the plan cross-section structural schematic diagram of shell in Fig. 3；

Fig. 9 is that Fig. 3 removes the integral installation distribution structure schematic diagram after shell；

Figure 10 is the decomposition texture schematic diagram of Fig. 9；

Figure 11 is the perspective view of on-off component in Fig. 9.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein "inner", "outside", "left", "right" and Similar statement for illustrative purposes only, is not meant to be the only embodiment.

Refering to fig. 1 to Fig. 6 and Fig. 9, the electronic atomization device 10 that one embodiment of the invention provides can be used for molten with gas Glue generates the liquid that matrix is representative and is atomized.Electronic atomization device 10 includes atomizer 20, battery component 30 and sense group Part 500, atomizer 20 and battery component 30 may be implemented to be detachably connected.The atomizer 20 includes atomising mechanism 21 and on-off group Part 300, atomising mechanism 21 include shell 100 and atomizing component 200.There are imbibition chamber 104 and liquid storage chambers for electronic atomization device 10 103, liquid storage chamber 103 offers the liquid outlet channel 106 of connection liquid storage chamber 103, liquid storage chamber 103 for storing liquid on shell 100 Liquid can be injected into imbibition chamber 104 by the liquid outlet channel 106, atomizing component 200 is used for the liquid in imbibition chamber 104 It is atomized.On-off component 300 connect with shell 100 and has the first station 11 and second station 12, when on-off component 300 When the first station 11, on-off component 300 blocks the liquid outlet channel 106, and liquid storage chamber 103 and imbibition chamber 104 are mutually isolated, liquid storage Chamber 103 stops supplying liquid to imbibition chamber 104, and inductive component 500 stops control battery component 30 and heats to atomizing component 200 So that the liquid in imbibition chamber 104 is atomized, user can not aspirate electronic atomization device 10；When on-off component 300 is located at When second station 12, on-off component 300 opens wide the liquid outlet channel 106, and liquid storage chamber 103 and imbibition chamber 104 are interconnected, liquid storage chamber 103 can supply liquid to imbibition chamber 104, and inductive component 500 controls battery component 30 and heated to atomizing component 200 so as to inhale Liquid atomization in sap cavity 104, user can aspirate electronic atomization device 10.

Certainly, in other embodiments, it can also be not provided with imbibition chamber 104, the liquid in liquid storage chamber 103 is logical by going out liquid Liquid is directly supplied to atomizing component 200 to be atomized in road 106, i.e., atomizing component 200 is directly logical from liquid out through capillary action Liquid is drawn at the distal opening in road 106 and is atomized.

Refering to Fig. 3 and Fig. 4 and Fig. 7 and convex 8, in some embodiments, shell 100 includes body part 110, isolation part 120 With nozzle section 130, body part 110, which encloses, is set as a big accommodating cavity, and body part 110 is substantially in the rectangular-shape of one side opening. Isolation part 120 connect with body part 110 and is located in the accommodating cavity, and isolation part 120 and body part 110 enclose and be set as the first chamber 101 With the second chamber 102, i.e. accommodating cavity is separated into the first chamber 101 and the second chamber 102 by isolation part 120.Nozzle section 130 is substantially in pipe Shape, nozzle section 130 are connect with body part 110, and the outer surface of a part protrusion body part 110 of nozzle section 130 sets length, are inhaled The part that mouth 130 protrudes 110 outer surface of body part forms the suction nozzle 131 that user is used to aspirate smog；Nozzle section 130 it is another A part is located in the first chamber 101, and the part that nozzle section 130 is located in the first chamber 101 can be plugged on atomizing component 200 On.

Refering to Fig. 3 and Fig. 4, Fig. 6, Fig. 9 and Figure 10, atomizing component 200 includes atomization core 210, pedestal 220,230 and of top cover Sealing shroud 240, top cover 230 are provided with cavity, and a part of pedestal 220 is planted in the cavity, another part position of pedestal 220 Outside the cavity and the opening of the cavity can be closed, meanwhile, another part of pedestal 220 also can enclosed body portion 110 surround Accommodating cavity opening.Atomization core 210 is entirely located in the cavity of top cover 230, and is interposed between top cover 230 and pedestal 220. Atomization core 210 and top cover 230 surround imbibition chamber 104 jointly, i.e. atomization core 210 can define the segment boundary of imbibition chamber 104.Example Such as: being provided with First terrace 221 on pedestal 220, second be oppositely arranged with First terrace 221 is offered on top cover 230 Step surface 231, atomization core 210 are folded between First terrace 221 and second step face 231, by First terrace 221 with To the position-limiting action of atomization core 210, the installation accuracy and efficiency of atomization core 210 can be improved jointly in second step face 231.

Top cover 230 is housed in the first chamber 101, the first chamber 101 resulting residue except the space for accommodating the top cover 230 Segment space forms liquid storage chamber 103, i.e. top cover 230, isolation part 120 and 110 three of body part surrounds liquid storage chamber 103 jointly.Mist Changing device 20 further includes capping 400, and body part 110 offers liquid injection hole 113,113 energy of liquid injection hole at the position of nozzle section 130 Enough connections are extraneous can to pass through the fluid injection when the amount of liquid stored in liquid storage chamber 103 is lower than setting value with liquid storage chamber 103 Liquid is injected into liquid storage chamber 103 in hole 113, the oil reserve of liquid storage chamber 103 is replenished in time.Capping 400 is mounted on body part 110 On, after oiling, also capping 400 and liquid injection hole 113 are cooperated to block liquid injection hole 113, prevent liquid from liquid injection hole 113 It leaks out, also avoids the impurity such as dust through the intrusion of liquid injection hole 113 into the liquid of liquid storage chamber 103.

Refering to Fig. 6, the first airflow channel 201 is offered on top cover 230 and pedestal 220, in the nozzle section 130 of shell 100 It is provided with the second airflow channel 132, is located in the opening of top cover 230 for example, nozzle section 130 is plugged on the first airflow channel 201, To realize the interconnected of the first airflow channel 201 and the second airflow channel 132.It is extraneous that connection is provided on body part 110 With the air inlet 111 of the second chamber 102, the ventilation of connection the first airflow channel 201 and the second chamber 102 is provided on isolation part 120 Hole 123.Air inlet 111, the second chamber 102, venthole 123, the first airflow channel 201 and the second airflow channel 132 are collectively formed The air intake passage 105 of gas circulation.When user aspirates at suction nozzle, external air flow successively passes through air inlet 111, second Chamber 102, venthole 123, the first airflow channel 201 and the second airflow channel 132 are to be aspirated (dotted arrow institute in Fig. 6 by user Refer to the flow direction for air-flow).

Refering to Fig. 5, Fig. 6 and Figure 10, atomization core 210 can be made of porous ceramic film material, and atomization core 210 passes through electrode It is connect with battery component 30.Atomization core 210 has atomization face 211, and the first airflow channel 201 flows through the atomization face 211.It is being atomized Under the capillarity of core 210, the liquid of imbibition chamber 104 is drawn to atomization face 211, and battery component 30 is by electrode to atomization face 211 heating, liquid is atomized in atomization face 211 and forms smog, when user aspirates at suction nozzle, from air inlet 111, the The gas that two chambers 102 and venthole 123 enter in the first airflow channel 201 carry smog and through the second airflow channel 132 by with Family absorbs.

Sealing shroud 240 can be silica gel sheath etc., i.e. sealing shroud 240 is made of silica gel material, and silica gel sheath is set in atomization On core 210 and it is connected between the First terrace 221 and second step face 231.Silica gel sheath can prevent in imbibition chamber 104 Gap leakage of the liquid between atomization core 210 and top cover 230, pedestal 220；Meanwhile silica gel sheath can play protection atomization Core 210 and heat-insulated effect avoid in the heat transfer to the body part 110 of shell 100 in atomization core 210, to improve energy The utilization rate of amount, while the sense of discomfort for avoiding the heat being transferred on body part 110 from generating user.

In some embodiments, atomization core 210 is defined to be recessed on the surface on 104 boundary of imbibition chamber towards atomization face 211 and be formed There is caching chamber 212, which is connected to imbibition chamber 104, and caching chamber 212 can be used for playing the liquid in imbibition chamber 104 The effect of temporary cache.Since setting caches chamber 212, the bottom wall of chamber 212 is cached relatively more close to atomization face 211, can be made It obtains liquid and is more quickly transmitted to atomization face 211, it is ensured that containing sufficient liquid in atomization face 211, avoid liquid assimilating not There is dry combustion method phenomenon enough.The direction of the first airflow channel 201 is directed toward along imbibition chamber 104, i.e., direction from top to bottom caches chamber 212 cross sectional dimensions a successively decreases, and can play the role of reasonable balance liquid assimilating, so that drawing in atomization face 211 suitable Liquid, avoid in atomization face 211 because liquid is excessive causes reveal and fluid low and cause dry combustion method.

Refering to Fig. 4 to Fig. 8, in some embodiments, it is arranged at intervals with first through hole 121 and second on isolation part 120 and leads to Liquid outlet channel 106 is collectively formed in hole 122, first through hole 121 and the second through-hole 122, and first through hole 121 is connected to 103 He of liquid storage chamber Second chamber 102, the second through-hole 122 is connected to imbibition chamber 104 and the second chamber 102, the second chamber 102 can be cylindrical cavity.On-off group Part 300 includes slide bar 310, sealing element 330 and handle 320, and slide bar 310 is slidably arranged in second chamber 102, slide bar 310 Outer surface, which is radially recessed, is formed with connection chamber 311.When slide bar 310 slides into the first station 11, the outer surface energy of slide bar 310 Effective plugging action is formed to the first through hole 121 on isolation part 120, to block entire liquid outlet channel 106, prevents liquid storage chamber Liquid in 103 is flowed out from first through hole 121, the liquid when liquid can not be flowed out from first through hole 121, in liquid storage chamber 103 Certainly it cannot be introduced into imbibition chamber 104.When slide bar 310 is from 11 upward sliding of the first station to second station 12, due to connection Chamber 311 is formed by 310 outer surface depressions of slide bar, and slide bar 310 is lost to the plugging action of first through hole 121, first through hole 121 with Be connected to chamber 311 be interconnected, meanwhile, the second through-hole 122 also be connected to chamber 311 connection, at this point, the liquid in liquid storage chamber 103 can Successively through (solid arrow is liquid in Fig. 6 in first through hole 121, connection chamber 311 and the second through-hole 122 entrance imbibition chamber 104 Flow direction).

Sealing element 330 can be O-ring seal etc., and sealing element 330 is embedded on slide bar 310 and can be connected to slide bar 310 and second chamber 102 inner wall between, prevent liquids and gases from letting out from the gap between 102 inner wall of slide bar 310 and the second chamber Dew.Handle 320 is connect with slide bar 310, and user can apply active force to handle 320, thus with moving slide-bar 310 in the second chamber Upper and lower sliding in 102, handle 320 are threaded through in air inlet 111, and air inlet 111 provides for the movement of handle 320 keeps away position sky Between.When slide bar 310 is located at the first station 11, slide bar 310 can block air inlet 111 completely, when user aspirates from suction nozzle, Ambient atmos can not enter from air inlet 111, so that can not be from extraneous draw gas in air intake passage 105.In other embodiments In, on-off component 300 can be other shapes, and on-off component 300 can be rotatably arranged in the second chamber 102.It can also save Slightly handle 320 pushes sliding of the slide bar 310 in the second chamber 102 by automatic controls.

Gas vent 112 is also provided on body part 110, gas vent 112 is corresponding with the end of the second chamber 102, gas vent 112 and second chamber 102 be interconnected.During slide bar 310 moves upward to second station 12 from the first station 11, second The volume on 102 top of chamber is reduced, and the gas in 102 upper space of the second chamber will be discharged from gas vent 112, prevents compression empty The pressure that gas generates, which constitutes the sliding of slide bar 310, to be hindered, it is ensured that slide bar 310 smoothly pushes.

When slide bar 310 is located at the first station 11, it is negative in air intake passage 105 that slide bar 310 prevents inductive component 500 from incuding Pressure stops heating atomization core 210, so that liquid be prevented to be atomized to control battery component 30.When slide bar 310 is located at second station When 12, slide bar 310 enables inductive component 500 to incude the negative pressure in air intake passage 105, to control battery component 30 to atomization core 210 heating, to start liquid atomization.

Refering to Fig. 5 and Fig. 6, Fig. 9 and Figure 10, in some embodiments, inductive component 500 include gas flow transducer 510, gas Flow sensor 510 can be arranged directly on battery component 30, also can be arranged directly on atomizing component 200.Atomizing component Induction channels 513 are offered on 200, induction channels 513 can be connected to air intake passage 105, in air intake passage 105 due to suction The negative pressure of generation can be incuded by induction channels 513 by inductive component 500, when slide bar 310 is located at the first station 11, slide bar 310 closing induction channels 513 are to hinder induction channels 513 to be connected to air intake passage 105.When slide bar 310 is located at second station 12 When, slide bar 310 stops closing induction channels 513 so that induction channels 513 are connected to air intake passage 105.For example, on slide bar 310 Jack 312 is offered, jack 312 can be cylindrical hole, be provided with inserting part 511 on the pedestal 200 of atomizing component 200, feel Channel 513 is answered to be provided on inserting part 511, inserting part 511 is adapted with the shape of jack 312, and inserting part 511 is inserted It sets in the jack 312.The communication port of connection induction channels 513 and air intake passage 105 is formed at the top end face of inserting part 511 513a。

When slide bar 310 is located at the first station 11, inserting part 511 is inserted into jack 312, and the bottom wall of jack 312 is to connection Mouth 513a forms plugging action, every the connection of induction channels 513 and air intake passage 105.When user suction nozzle aspirate when, even if There are negative pressure in air intake passage 105, and gas flow transducer 510 also can not sense the negative pressure by induction channels 513, so that air-flow Sensor 510 is unable to control battery component 30 and heats atomization core 210 with atomized liquid, and electronic atomization device 10 is fail to open, Cause user that can not aspirate.It is noted that since slide bar 310 in the first station 11 can block air inlet 111 completely, outside Boundary's air-flow cannot be introduced into air intake passage 105, be also possible to prevent user's suction.When slide bar 310 is located at second station 12, inserting part 511 can completely disengage jack 312, and slide bar 310 releases the closure to communication port 513a and air inlet 111, induction channels 513 with Air intake passage 105 is connected to.When user is when suction nozzle 131 aspirates, gas flow transducer 510 senses air-breathing by induction channels 513 Negative pressure in channel 105 heats with atomized liquid atomization core 210 to control battery component 30, and liquid is atomized the cigarette to be formed Mist will follow the air-flow in air intake passage 105 to be drawn by user, open electronic atomization device 10 to realize pumping function.

Therefore, the negative pressure in air intake passage 105 is incuded to control opening for electronic atomization device 10 by gas flow transducer 510 It opens, the suction of electronic atomization device 10 can be made to carry out fast reaction in this way, improve the sensitivity that electronic atomization device 10 is opened.

Refering to Fig. 9 to Figure 11, guide groove 313 can also be opened up on slide bar 310, guide groove 313 prolongs along the axial direction of slide bar 310 Setting length is stretched, guide groove 313 can be connected to jack 312 and air intake passage 105, guide pin 512 is provided on inserting part 511, The generally rectangular shaped shape of guide pin 512, guide pin 512 are matched with guide groove 313, are transported downwards in slide bar 310 from second station 12 During moving to the first station 11, by the guiding role of guide pin 512, can make inserting part 511 smoothly with jack 312 Cooperation.Meanwhile when the moment that slide bar 310 leaves from the first station 11, the bottom wall of jack 312 releases the envelope to communication port 513a It closes, so that gas flow transducer 510 quickly, is accurately sensed in air intake passage 105 by induction channels 513 and guide groove 313 Negative pressure further increases the sensitivity of 10 pairs of electronic atomization device suction responses, it is ensured that electronic atomization device 10 can be opened quickly.

In some embodiments, charging interface 31 is offered on battery component 30, charging interface 31 is located at battery component 30 End far from atomizer 20, the i.e. bottom of battery component 30 can be at any time to battery components 30 by the way that charging interface 31 is arranged It charges.

When needing to open electronic atomization device 10 and being aspirated, firstly, driving handle 320 is moved to moving slide-bar 310 Second station 12, at this point, the liquid in liquid storage chamber 103 successively enters through first through hole 121, connection chamber 311 and the second through-hole 122 In imbibition chamber 104, also, the jack 312 in inserting part 511 and slide bar 310 is detached from, and induction channels 513 and air intake passage 105 connect It is logical.Then, user aspirates at suction nozzle 131, so that generating negative pressure in air intake passage 105, gas flow transducer 510 is logical by induction Road 513 senses negative pressure and controls battery component 30 and heats to atomization core 210, to make the liquid atomization to aspirate.

When stopping using electronic atomization device 10, the first station can be moved to moving slide-bar 310 with driving handle 320 11, at this point, slide bar 310 blocks first through hole 121, the liquid in liquid storage chamber 103 can not be flowed out from first through hole 121, so that Liquid in liquid storage chamber 103 cannot be introduced into imbibition chamber 104.Meanwhile inserting part 511 is plugged on the jack 312 in slide bar 310 In, slide bar 310 blocks the communication port 513a on inserting part 511 to hinder the connection of induction channels 513 Yu air intake passage 105.When User aspirates at suction nozzle 131, even if there are negative pressure in air intake passage 105, gas flow transducer 510 can not pass through induction channels 513 sense negative pressure to control battery component 30 to atomization core 210 and heat, so that liquid can not be atomized for suction.When So, slide bar 310 can also block air inlet 111 completely, further such that user can not aspirate.

Therefore, when electronic atomization device 10 be in that user do not aspirate when shelving state, slide bar 310 can be located at first Station 11, so that liquid storage chamber 103 and imbibition chamber 104 are mutually isolated, there is no big quantity of fluid in imbibition chamber 104, thus effectively The liquid in imbibition chamber 104 is avoided to reveal from atomization core 210.Meanwhile air intake passage 105 is incuded by gas flow transducer 510 In negative pressure to control the quick unlatching of electronic atomization device 10, improve the sensitivity that electronic atomization device 10 is opened.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (24)

1. a kind of atomizer of electronic atomization device, which is characterized in that the atomizer includes:

Shell, the liquid outlet channel that is provided with the liquid storage chamber for storing liquid and can be connected to the liquid storage chamber；

Atomizing component, on the housing, the liquid storage chamber can be supplied by the liquid outlet channel to the atomizing component for installation Answer liquid；And

On-off component connect with the shell and has the first station and second station；

When the on-off component is located at first station, the on-off component blocks the liquid outlet channel；When the on-off When component is located at the second station, the on-off component opens wide the liquid outlet channel.

2. atomizer according to claim 1, which is characterized in that the shell includes body part interconnected and isolation Portion, the isolation part and the body part, which enclose, is set as the first chamber and the second chamber, and the atomizing component partial receipt is described first In chamber, first chamber except the space for accommodating the atomizing component and obtained remainder forms the liquid storage chamber；Institute On-off component is stated to be arranged in second chamber.

3. atomizer according to claim 2, which is characterized in that the liquid outlet channel includes that the isolation part is arranged in interval On first through hole and the second through-hole, the first through hole be connected to the liquid storage chamber and the second chamber, second through-hole is connected to institute State the second chamber and for supplying liquid to the atomizing component；Recess is formed with connection chamber on the surface of the on-off component；When When the on-off component is located at first station, the on-off component blocks the first through hole and makes first through hole and second Through-hole is mutually isolated；When the on-off component is located at the second station, the first through hole, connection chamber and the second through-hole phase It is intercommunicated.

4. atomizer according to claim 2, which is characterized in that the on-off component is slidably matched with second chamber.

5. atomizer according to claim 4, which is characterized in that second chamber is cylindrical cavity, the on-off component Including cylindrical slide bar.

6. atomizer according to claim 5, which is characterized in that the on-off component further includes sealing element, the sealing Part is embedded on the slide bar and can be connected between the slide bar and the inner wall of second chamber.

7. atomizer according to claim 6, which is characterized in that the sealing element includes O-ring seal.

8. atomizer according to claim 5, which is characterized in that the on-off component further includes handle, the handle with The slide bar connects and is used to that slide bar to be pushed to move, and offers on the body part and is connected to second chamber and extraneous air inlet Hole, the handle are threaded through in the air inlet.

9. atomizer according to claim 8, which is characterized in that when the on-off component is located at first station, The slide bar blocks the air inlet.

10. atomizer according to claim 2, which is characterized in that offer connection second chamber on the body part With extraneous gas vent, during on-off component moves to second station from the first station, the air in the second chamber can It is discharged from gas vent.

11. atomizer according to claim 1, which is characterized in that offered in the atomizing component logical with the liquid out Liquid in the imbibition chamber can be atomized by the imbibition chamber of road connection, the atomizing component.

12. atomizer according to claim 11, which is characterized in that the atomizing component includes atomization core and is provided with One airflow channel, the atomization core defines the segment boundary of the imbibition chamber and has the atomization face for capableing of atomized liquid, described First airflow channel flows through the atomization face, and the surface that the atomization core defines the imbibition chamber boundary is recessed towards the atomization face It is formed with the caching chamber for being connected to the imbibition chamber.

13. atomizer according to claim 12, which is characterized in that be directed toward first airflow channel along the imbibition chamber Direction, it is described caching chamber cross sectional dimensions successively decrease.

14. atomizer according to claim 11, which is characterized in that the atomizing component further includes pedestal interconnected And top cover, the atomization core and top cover surround the imbibition chamber, First terrace are provided on the pedestal, is opened on the top cover Equipped with the second step face being oppositely arranged with the First terrace, the atomization core is folded in the First terrace and second Between step surface.

15. atomizer according to claim 14, which is characterized in that the atomizing component further includes silica gel sheath, the silicon Gum cover is set in the atomization core and is connected between the First terrace and second step face.

16. atomizer according to claim 1, which is characterized in that the shell includes nozzle section, and the atomizing component is set It is equipped with the first airflow channel, the nozzle section partial receipt is in the liquid storage chamber and to offer the second extraneous air-flow of connection logical Road, the nozzle section are plugged on the atomizing component and are connected to the second airflow channel with the first airflow channel.

17. atomizer according to claim 1, which is characterized in that it further include the capping of installation on the housing, it is described It is also provided on shell and is connected to the liquid storage chamber and extraneous liquid injection hole, the capping can seal the liquid injection hole.

18. atomizer according to claim 1, electronic atomization device includes inductive component, which is characterized in that the shell It is connected to extraneous air intake passage with offering on the atomizing component, the suction can be connected to by offering on the atomizing component The induction channels in gas channel, the negative pressure in the air intake passage can be incuded by the induction channels by the inductive component；

When the on-off component is located at first station, the on-off component closes the induction channels so that air intake passage It is isolated with induction channels, the inductive component stops incuding the negative pressure in the air intake passage；When the on-off component is located at institute When stating second station, the induction channels are connected to the air intake passage, and the inductive component can incude the air intake passage In negative pressure.

19. atomizer according to claim 18, which is characterized in that offer jack, the mist in the on-off component Change and be provided with inserting part on component, the communication port of the induction channels and the air intake passage is provided on the inserting part；When When the on-off component is located at first station, the inserting part and the jack cooperate, and the bottom wall of the jack blocks institute State communication port；When the on-off component is located at the second station, the bottom wall of the jack stops blocking the communication port.

20. atomizer according to claim 19, which is characterized in that it is described slotting to be also provided with connection in the on-off component The guide groove in hole and the air intake passage is provided with the guide pin that can cooperate with the guide groove on the inserting part.

21. atomizer according to claim 18, which is characterized in that the inductive component is arranged on the atomizing component At the position of the induction channels.

22. a kind of electronic atomization device, which is characterized in that including any in battery component, inductive component and claim 1 to 20 Atomizer described in, the battery component are connect with the atomizer.

23. electronic atomization device according to claim 22, which is characterized in that the inductive component includes air-flow sensing Device, the gas flow transducer are arranged on the battery component or the atomizer.

24. electronic atomization device according to claim 22, which is characterized in that end of the battery component far from atomizer Portion offers the charging interface for charging.