CN205794803U - A kind of atomizing component - Google Patents

Abstract

The utility model discloses a kind of atomizing component, when solving as electronic cigarette interpolation ree-oil, ree-oil can be flowed in atomization core assembly, and then be flowed into corrosion cell and user in battery component and easily suck the technical problem of ree-oil, atomizing component includes component suction nozzle, oil storage assembly, rotary components, atomization core assembly and connects assembly；Rotary components includes breather assembly and revolving part, and oil storage assembly has the tank filler sleeve connected with shoe cream room；It is provided with fuel feed hole on atomization core assembly, makes tank filler sleeve exposed when rotating revolving part, and when adding ree-oil by tank filler sleeve, revolving part drives breather assembly to rotate, and is located on fuel feed hole with lid, hinder the ree-oil in shoe cream room to enter in atomization core assembly.Leakage of oil is caused avoid ree-oil to be flowed into atomization core assembly when adding ree-oil in.

Description

A kind of atomizing component

Technical field

This utility model relates to electronic cigarette technical field, particularly relates to a kind of atomizing component.

Background technology

Electronic cigarette is a kind of relatively conventional simulation cigarette electronic product, is mainly used in smoking cessation and cigarette substitute. The structure of existing electronic cigarette specifically includes that interconnective atomizing component and battery component.Atomizing component conduct The core component of electronic cigarette, specifically includes that component suction nozzle, oil storage assembly and the mist set gradually from top to bottom Change core assembly, also include being located in oil storage assembly, connecting component suction nozzle and the breather of atomization core assembly. Oil storage assembly provides ree-oil for atomization core assembly, and when the smoking action of user being detected, battery component is mist Change core assembly to power, make atomization core assembly in running order；When, after atomization core assembly work, heating wire is sent out Heat, ree-oil is heated and evaporates atomization, forms the aerosol of simulated flue gas, and flow to component suction nozzle by this breather, So that smoker draws this aerosol from component suction nozzle, and then there is the sensation of a kind of true cigarette of similar suction.

Along with the increase of smoker's accumulation smoking number of times, the ree-oil in oil storage assembly is gradually exhausted and it needs to Adding ree-oil from oil storage assembly near the end of component suction nozzle, atomization core assembly is placed on below oil storage assembly, When adding ree-oil, if it is too fast to add ree-oil, ree-oil easily is used for receiving oil storage group from atomization core assembly In the fuel feed hole of ree-oil is exceedingly flowed into atomization core assembly in part, cause the ree-oil satiety being atomized in core assembly With, and then be flowed in battery component, cause battery corrosion；Additionally, when user's smoking, atomizing component Interior ree-oil easily flows in smoker oral cavity along with smoke path, causes user to suck ree-oil.

It is to say, exist in prior art: when adding ree-oil for electronic cigarette, ree-oil can be from atomization core group Fuel feed hole on part is flowed in atomization core assembly, and then is flowed into battery component, cause battery corrosion and User easily sucks the technical problem of the ree-oil in atomization chamber without atomization.

Utility model content

This utility model is for present in prior art, and when adding ree-oil for electronic cigarette, ree-oil can be from mist Change the fuel feed hole on core assembly to be flowed in atomization core assembly, and then be flowed into battery component, cause battery rotten Lose and easily suck the technical problem without the ree-oil being atomized, it is provided that a kind of atomizing component, it is achieved that When adding ree-oil for electronic cigarette, the fuel feed hole on blocking atomization core assembly, to avoid ree-oil to pass through this oil-feed The bad phenomenon of leakage of oil is caused in hole penetrates into atomization core assembly.

This utility model provides a kind of atomizing component, for forming electronic cigarette with battery component combination, described Atomizing component includes component suction nozzle, oil storage assembly, rotary components, atomization core assembly and connects assembly, described Component suction nozzle and described connection assembly are connected to the opposite end of described oil storage assembly, described connection assembly The one end deviating from described oil storage assembly for being connected with described battery component；

Described rotary components includes breather assembly and the revolving part being connected with described breather assembly, described logical Trachea assembly is plugged in described oil storage assembly and is connected with described component suction nozzle, described breather assembly with It is formed with the shoe cream room for storing ree-oil between described oil storage assembly, the sidewall of described oil storage assembly is arranged There is the tank filler sleeve being connected with described shoe cream room；Described revolving part is rotating is set in described oil storage assembly On outer peripheral face, and it is equipped with described tank filler sleeve, so that described tank filler sleeve can be turned on and off when rotated；

At least one end of described atomization core assembly is plugged in described breather assembly, described atomization core assembly Being provided with fuel feed hole on sidewall, described fuel feed hole is equipped with the sidewall of described breather assembly, so that working as Rotating described revolving part makes described tank filler sleeve exposed out, and when can add ree-oil by described tank filler sleeve, Described revolving part drives described breather assembly to rotate, and makes described breather assembly lid be located at described fuel feed hole On, to hinder the ree-oil in described shoe cream room to enter in described atomization core assembly.

Optionally, described breather assembly includes breather and elastic sealing element, one end of described breather with Described revolving part is connected, and the other end of described breather is set on described atomization core assembly, and described elasticity is close Sealing is fixed on the sidewall of described breather, and described elastic sealing element is correspondingly arranged with described fuel feed hole, and Flexibly support on the outer wall of described atomization core assembly, so that when when unlatching described tank filler sleeve, described elasticity Sealing member lid is located on described fuel feed hole, to stop the ree-oil in described shoe cream room to enter described atomization core assembly In, when closing described tank filler sleeve, described elastic sealing element staggers with described fuel feed hole.

Optionally, it is formed between inner peripheral surface and the outer peripheral face of described atomization core assembly of described breather and is positioned at The annular gap in the outside of described fuel feed hole, described annular gap is connected with described shoe cream room, described oil storage The ree-oil of intracavity enters in described fuel feed hole by described annular gap, can supply for described atomization core assembly Oil；One end of the close described component suction nozzle of described atomization core assembly is provided with the inwall bullet with described breather Property the first sealing ring of abutting, to hinder the ree-oil in described annular gap to flow towards component suction nozzle direction.

Optionally, the inner peripheral surface of described breather be provided with extend to described breather towards described connection group The annular groove of part end face, forms described annular gap between described annular groove and described atomization core assembly.

Optionally, the sidewall of described breather is provided with it is connected with described shoe cream room and described annular gap Through hole, the distance of described through hole and described component suction nozzle is less than between described fuel feed hole and described component suction nozzle Distance.

Optionally, the sidewall of described breather is provided with fixing hole, described fixing hole and described fuel feed hole position Put and be correspondingly arranged；Described elastic sealing element is sealing ring, and described sealing ring includes ring body and by described ring The inner peripheral surface of shape body protrudes the sealing lid formed, and described ring body is set on described breather, described Seal the lid outer wall through described fixing hole and with described atomization core assembly to flexibly support, so that adding described in working as When oilhole is opened, described sealing lid lid is located on described fuel feed hole.

Optionally, the sidewall of described breather is provided with fixing hole, described fixing hole and described fuel feed hole position Put and be correspondingly arranged；Described elastic sealing element is diaphragm seal, and described diaphragm seal includes that lid sets portion and connecting portion, institute State lid to set the outer wall of portion and described atomization core assembly and flexibly support, described connecting portion pass described fixing hole and with The outer wall button of described breather sets connected.

Optionally, one end adjacent with described connection assembly of described breather is provided with limited impression, described The stopper protrusion being plugged on described limited impression it is provided with, so that rotating described revolving part in oil storage assembly Time, described stopper protrusion can limit the rotational steps of described revolving part.

Optionally, described breather assembly is provided with the first limiting section, described oil storage assembly is provided with The second limiting section that described first limiting section matches, so that when rotating described revolving part, described second limit Position portion can limit the rotational steps of described revolving part.

Optionally, one in described first limiting section and described second limiting section is spacing recess, separately One for be plugged in the spacing preiection in described spacing recess so that when described spacing preiection from described spacing recessed When the most described spacing recess in one end in portion moves to the other end of described spacing recess, described fuel feed hole is complete Portion opens or Close All state.

Optionally, described atomization core assembly is provided with the 3rd limiting section, described oil storage assembly is provided with The 4th limiting section that described 3rd limiting section matches, during so that rotating described revolving part, described 4th spacing Portion can limit the motion radially of described atomization core assembly.

Optionally, described revolving part includes the rotating ring being set on described oil storage assembly outer peripheral face, described rotation The perforation coordinated with described tank filler sleeve it is provided with, when described perforation and described tank filler sleeve position weight on change sidewall During conjunction, it is possible to add ree-oil in described shoe cream room by described tank filler sleeve.

Optionally, the outer peripheral face of described oil storage assembly is provided with the groove arranged around described oil filler and embedding Being located at the elastic ring in described groove, described elastic ring flexibly supports on the inwall of described rotating ring.

Optionally, described revolving part also includes being bent inwards by one end of rotating ring extending the annular end wall formed And being extended the ring-shaped connecting wall formed to side by the inner peripheral of described annular end wall, described rotating ring is set in One end being connected with described component suction nozzle of described oil storage assembly, described annular end wall lid is located at described oil storage group On the end face of part, described ring-shaped connecting wall is connected with described breather modular connector, the one of described component suction nozzle End is plugged in the space that described ring-shaped connecting wall surrounds, and the other end of described component suction nozzle extends to described rotation Turn outside part.

Optionally, described component suction nozzle include a connecting seat of hollow, the second sealing ring, suction nozzle, first Elastic ring and the first regulating QI ring, one end of described a connecting seat is dismountable is plugged in described ring-shaped connecting wall In the space surrounded, the other end of described a connecting seat is connected with described suction nozzle, and described second seals snare Being located on the outer peripheral face of described a connecting seat and abut with described ring-shaped connecting wall elasticity, described first is elastic Ring and described first regulating QI ring are all set on described suction nozzle, and described first elastic ring is positioned at described first and adjusts Abut between compression ring and described suction nozzle and with described first elastic ring elasticity, described suction nozzle and described first regulating QI The position that ring is corresponding is provided with the first air inlet, and described first regulating QI ring is provided with and described first air inlet The second air inlet that hole is equipped with, so that when rotating described first regulating QI ring, it is possible to regulate described first Overlapping area between air inlet and described second air inlet.

Optionally, described atomization core assembly include the atomization core print seat of hollow, the first dead ring, the first electrode, Atomization core retainer plate, ree-oil adsorption sleeve, heating wire, wire netting and the 3rd sealing ring, described atomization core retainer plate and described First dead ring is inserted in the two ends of described atomization core print seat respectively, and described first electrode sleeve is located at described first exhausted Abutting in edge ring and with the described assembly that is connected, described ree-oil adsorption sleeve is set in described atomization core retainer plate, described Heating wire winding becomes the column structure of hollow and is set in described ree-oil adsorption sleeve, one end of described heating wire Electrically connecting with described first electrode, the other end of described heating wire electrically connects with described atomization core retainer plate, and passes through Described atomization core retainer plate and atomization core print seat are connected assembly electrical connection with described, and described metal square is located at described ree-oil On one end end face deviating from described first electrode of adsorption sleeve, described 3rd sealing ring is set in described atomization core Put and abut with described oil storage assembly elasticity, the sidewall of described atomization core retainer plate is provided with described fuel feed hole.

Optionally, described connection assembly include the first adapter sleeve, the second adapter sleeve, the second dead ring, second Electrode, the second regulating QI ring and the second elastic ring, one end of described first adapter sleeve and described oil storage modular connector Being connected, the other end of described first adapter sleeve is connected with described second adapter sleeve grafting, described second adapter sleeve The one end deviating from described oil storage assembly for being connected with described battery component, described second dead ring is set in In one end deviating from described oil storage assembly of described second adapter sleeve, described second electrode is plugged in described second In dead ring, one end of described second electrode abuts with described first electrode, the other end of described second electrode For being connected with described battery component；

Described second regulating QI ring and the second elastic ring are all set on described first adapter sleeve, and described second bullet Property ring supports between described second regulating QI ring and described first adapter sleeve and with described second regulating QI ring resilience Connecing, the position that described first adapter sleeve is corresponding with described second regulating QI ring is provided with the 3rd air inlet, described The 4th air inlet being equipped with described 3rd air inlet it is provided with, so that rotating institute on second regulating QI ring When stating the second regulating QI ring, it is possible to regulate the face that overlaps between described 3rd air inlet and described 4th air inlet Long-pending.

Optionally, described oil storage assembly include the connecting tube that metal material makes, transparent atomization set, first Union joint, the second union joint and second connect seat, and described breather assembly is plugged in described connecting tube, institute State and between connecting tube and described breather assembly, be surrounded by described shoe cream room, the sidewall of described connecting tube is arranged Ree-oil observation window, described atomization set, the first union joint and the second union joint is had all to be set in described connecting tube, Described atomization is overlapped between described first union joint and described second union joint, and described revolving part is set in institute Stating on the first union joint and be connected with described component suction nozzle, described second connects one end of seat and described connecting tube Being connected, the other end is connected with described second union joint, and one end of described atomization core assembly is plugged in described ventilation In pipe assembly, the other end of described atomization core assembly is plugged in described connection assembly, and described second connects seat Outer peripheral face on be provided with the 4th sealing ring flexibly supported with described second union joint.

One or more technical schemes that this utility model provides, at least have the following technical effect that or advantage:

Owing to, in this utility model scheme, the atomizing component of electronic cigarette includes: component suction nozzle, oil storage assembly, Rotary components, atomization core assembly and connection assembly, described component suction nozzle and described connection assembly are connected to The opposite end of described oil storage assembly, one end deviating from described oil storage assembly of described connection assembly for institute State battery component to be connected；Described rotary components includes breather assembly and the rotation being connected with described breather assembly Turn part, in described breather assembly is plugged in described oil storage assembly and be connected with described component suction nozzle, described The shoe cream room for storing ree-oil, described oil storage assembly it is formed with between breather assembly and described oil storage assembly Sidewall on be provided with the tank filler sleeve being connected with described shoe cream room；Described revolving part is rotating is set in storage On the outer peripheral face of line of oils part, and it is equipped with described tank filler sleeve, so that institute can be turned on and off when rotated State tank filler sleeve；At least one end of described atomization core assembly is plugged in described breather assembly, described atomization core Being provided with fuel feed hole on the sidewall of assembly, described fuel feed hole is equipped with the sidewall of described breather assembly, So that making described tank filler sleeve exposed out when rotating described revolving part, and cigarette can be added by described tank filler sleeve During oil, described revolving part drives described breather to rotate, and makes described breather assembly lid be located at described tank filler sleeve On, to hinder the ree-oil in shoe cream room to enter in atomization core assembly.It is to say, by setting on electronic cigarette Put revolving part, when adding ree-oil for electronic cigarette, rotate revolving part and make tank filler sleeve turn on, make breather simultaneously Assembly lid is located at the fuel feed hole on atomization core assembly, to hinder the ree-oil in shoe cream room to enter atomization core assembly In；Efficiently solving in prior art when adding ree-oil for electronic cigarette, ree-oil can be from atomization core assembly Fuel feed hole be flowed in atomization core assembly, and then be flowed in battery component, cause battery corrosion and user Easily suck the technical problem without the ree-oil being atomized, it is achieved that when adding ree-oil for electronic cigarette, blocking Fuel feed hole on atomization core assembly, causes in this fuel feed hole is flowed into atomization core assembly to avoid ree-oil to pass through The bad phenomenon of leakage of oil.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below by right In embodiment or description of the prior art, the required accompanying drawing used is briefly described, it should be apparent that below, Accompanying drawing in description is only embodiment of the present utility model, for those of ordinary skill in the art, On the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to the accompanying drawing provided.

A kind of atomizing component structural representation that Fig. 1 provides for this utility model embodiment；

The decomposition texture schematic diagram of a kind of electronic cigarette that Fig. 2 provides for this utility model embodiment；

The another kind of atomizing component structural representation that Fig. 3 provides for this utility model embodiment；

The structural representation of a kind of breather assembly that Fig. 4 A provides for this utility model embodiment；

The structural representation of the another kind of breather assembly that Fig. 4 B provides for this utility model embodiment；

The oil storage assembly that Fig. 5 provides for this utility model embodiment respectively with atomization core assembly and rotary components Interface arrangment schematic diagram；

The upward view of the limit base of the oil storage assembly that Fig. 6 A provides for this utility model embodiment；

The top view of the limit base of the oil storage assembly that Fig. 6 B provides for this utility model embodiment；

The cross-section structure of the component suction nozzle of a kind of atomizing component that Fig. 7 A provides for this utility model embodiment shows It is intended to；

The cross-section structure of the rotary components of a kind of atomizing component that Fig. 7 B provides for this utility model embodiment shows It is intended to；

The cross-section structure of the oil storage assembly of a kind of atomizing component that Fig. 7 C provides for this utility model embodiment shows It is intended to；

The cross-section structure of the atomization core assembly of a kind of atomizing component that Fig. 7 D provides for this utility model embodiment Schematic diagram；

The cross-section structure connecting assembly of a kind of atomizing component that Fig. 7 E provides for this utility model embodiment shows It is intended to.

Detailed description of the invention

This utility model embodiment, by providing a kind of atomizing component, solves in prior art for electronic cigarette When adding ree-oil, ree-oil can be flowed into atomization core assembly by the fuel feed hole from atomization core assembly, and then is flowed into Battery component, causes battery corrosion and user easily to suck the technical problem of the ree-oil without atomization, it is achieved When adding ree-oil for electronic cigarette, the fuel feed hole on blocking atomization core assembly, enters to avoid ree-oil to pass through this The bad phenomenon of leakage of oil is caused in oilhole penetrates into atomization core assembly.

The technical scheme of this utility model embodiment is for solving above-mentioned technical problem, and general thought is as follows:

This utility model embodiment provides a kind of atomizing component, for forming electronics with battery component combination Cigarette, described atomizing component includes component suction nozzle, oil storage assembly, rotary components, atomization core assembly and connection group Part, described component suction nozzle and described connection assembly are connected to the opposite end of described oil storage assembly, described Connect one end deviating from described oil storage assembly of assembly for being connected with described battery component；Described rotary components Including breather assembly and the revolving part that is connected with described breather assembly, described breather assembly is plugged in institute State in oil storage assembly and be connected with described component suction nozzle, between described breather assembly and described oil storage assembly It is formed with the shoe cream room for storing ree-oil, the sidewall of described oil storage assembly is provided with and described shoe cream room phase The tank filler sleeve of connection；On the rotating outer peripheral face being set in described oil storage assembly of described revolving part, and with institute State tank filler sleeve to be equipped with, so that described tank filler sleeve can be turned on and off when rotated；Described atomization core assembly At least one end be plugged in described breather assembly, the sidewall of described atomization core assembly is provided with oil-feed Hole, described fuel feed hole is equipped with the sidewall of described breather assembly, so that making when rotating described revolving part Described tank filler sleeve is exposed out, and when can add ree-oil by described tank filler sleeve, described revolving part drives institute State breather assembly to rotate, make described breather assembly lid be located on described fuel feed hole, in hindering shoe cream room Ree-oil enter atomization core assembly in.

Visible, in the embodiment of the present application, by arranging revolving part on electronic cigarette, adding for electronic cigarette During ree-oil, rotate revolving part and make tank filler sleeve turn on, make breather assembly lid be located on atomization core assembly simultaneously Fuel feed hole, to hinder the ree-oil in shoe cream room to enter in atomization core assembly；Efficiently solve in prior art When adding ree-oil for electronic cigarette, ree-oil can be flowed into atomization core assembly by the fuel feed hole from atomization core assembly In, and then be flowed in battery component, cause battery corrosion and user easily to suck the ree-oil without atomization Technical problem, it is achieved that for electronic cigarette add ree-oil time, blocking atomization core assembly on fuel feed hole, with Avoid ree-oil to pass through and cause the bad phenomenon of leakage of oil in this fuel feed hole penetrates into atomization core assembly.

In order to be better understood from technique scheme, below in conjunction with Figure of description and concrete embodiment party Technique scheme is described in detail by formula, it should be understood that in this utility model embodiment and embodiment Specific features be technical scheme to be described in detail rather than limit to technical scheme Fixed, in the case of not conflicting, the technical characteristic in this utility model embodiment and embodiment can be mutual Combination.

First, refer to Fig. 1 and Fig. 2, this utility model embodiment provides a kind of atomizing component 1, uses In with battery component 2 combination formed electronic cigarette, atomizing component 1 include component suction nozzle 11, oil storage assembly 12, Rotary components 13, atomization core assembly 14 and connection assembly 15, component suction nozzle 11 and connection assembly 15 are respectively Be connected to the opposite end of oil storage assembly 12, connect one end deviating from oil storage assembly 12 of assembly 15 for It is connected with battery component 2；

Described rotary components 13 includes breather assembly 131 and the rotation being connected with described breather assembly 131 Turn part 132, in described breather assembly 131 is plugged in described oil storage assembly 12 and with described component suction nozzle 11 are connected, and are formed for storing ree-oil between described breather assembly 131 and described oil storage assembly 12 Shoe cream room 121, the sidewall of described oil storage assembly 12 is provided with and adding that described shoe cream room 121 is connected Oilhole 122；On the rotating outer peripheral face being set in oil storage assembly 12 of described revolving part 132, and with described Tank filler sleeve 122 is equipped with, can be turned on and off described tank filler sleeve 122 when rotated；

At least one end of described atomization core assembly 14 is plugged in described breather assembly 131, described atomization Fuel feed hole 141, described fuel feed hole 141 and described breather assembly 131 it is provided with on the sidewall of core assembly 14 Sidewall be equipped with so that when rotate described revolving part 132 make described tank filler sleeve 122 exposed out, and When can add ree-oil by described tank filler sleeve 122, described revolving part 132 drives described breather assembly 131 Rotate, make described breather assembly 131 lid be located on described fuel feed hole 141, in hindering shoe cream room 121 Ree-oil enter atomization core assembly 14 in.

In specific implementation process, refer to Fig. 2 and Fig. 3, described breather assembly 131 includes breather 1311 and elastic sealing element 1312, one end of described breather 1311 is connected with described revolving part 132, institute The other end stating breather 1311 is set on described atomization core assembly 14, described elastic sealing element 1312 Being fixed on the sidewall of described breather 1311, described elastic sealing element 1312 is right with described fuel feed hole 141 Should arrange, and flexibly support on the outer wall of described atomization core assembly 14, so that when opening described oiling During hole 122, described elastic sealing element 1312 lid is located on described fuel feed hole 141, to stop shoe cream room 121 Interior ree-oil enters in atomization core assembly 14, when closing described tank filler sleeve 122, and described elastic sealing element 1312 stagger with described fuel feed hole 141, i.e. when adding ree-oil and being complete, close by rotating revolving part 132 Tank filler sleeve 122, revolving part 132 drives breather assembly 131 to rotate simultaneously, so that elastic sealing element 1312 Stagger with fuel feed hole 141, open fuel feed hole 141 so that the ree-oil in shoe cream room 121 can pass through oil-feed Hole 141 flows in atomization core assembly 14.

Further, referring still to Fig. 3, the inner peripheral surface of described breather 1311 and described atomization core assembly 14 Outer peripheral face between be formed with the annular gap 123 in the outside being positioned at described fuel feed hole 141, between described annular Gap 123 is connected with described shoe cream room 121, and the ree-oil in described shoe cream room 121 passes through described annular gap 123 enter in described fuel feed holes 141, with can be for described atomization core assembly 14 fuel feeding；Described atomization core group The inwall elasticity that one end of the close described component suction nozzle 11 of part 14 is provided with described breather 1311 is supported The first sealing ring 16 connect, to hinder the ree-oil in described annular gap 123 to flow towards component suction nozzle 11 direction Dynamic.Concrete, the inner peripheral surface of described breather 1311 be provided with extend to described breather 1311 towards The annular groove 1311-1 of described connection assembly 15 end face, described annular groove 1311-1 and described atomization core Described annular gap 123 is formed between assembly 14.

Then, refer to Fig. 2, Fig. 3, Fig. 4 A and Fig. 4 B, the sidewall of described breather 1311 is arranged There are the through hole 1311-2 being connected with described shoe cream room 121 and described annular gap 123, described through hole The distance of 1311-2 and described component suction nozzle 11 is less than between described fuel feed hole 141 and described component suction nozzle 11 Distance.Owing to through hole 1311-2 exceeds fuel feed hole 141, tobacco juice is facilitated to flow in atomization core assembly 14 While on oil storage cotton, also facilitate and the exchange of air-flow in shoe cream room 121, be atomized core assembly 14 internal heat generation The thermal that silk atomization ree-oil produces enters in shoe cream room 121 by through hole 1311-2, it is ensured that shoe cream room Air pressure in 121 and extraneous balance, make electronic cigarette normally work.It addition, as shown in Figure 4 A and 4 B shown in FIG., Being additionally provided with fixing hole 1311-3 on the sidewall of described breather 1311, described fixing hole 1311-3 is with described Fuel feed hole 141 position is correspondingly arranged；Described elastic sealing element 1312 is set on breather 1311, and just Blocking fixing hole 1311-3 well, so that when when unlatching described tank filler sleeve 122, described elastic sealing element 1312 Lid is located on the described fuel feed hole 141 corresponding with fixing hole 1311-3 position, within stoping shoe cream room 121 Ree-oil enters in atomization core assembly 14, when closing described tank filler sleeve 122, and described elastic sealing element 1312 Stagger with described fuel feed hole 141.Wherein, the shape of through hole 1311-2 and fixing hole 1311-3 is indefinite.

In specific implementation process, as shown in Figure 4 A, through hole 1311-2 is oval slotted eye, fixing hole 1311-3 is circular slotted eye, and described elastic sealing element 1312 is sealing ring, and described sealing ring includes that annular is originally Body 1312-1 and the sealing lid 1312-2 formed by the inner peripheral surface protrusion of described ring body 1312-1, described Ring body 1312-1 is set on described breather 1311, and the described lid 1312-2 that seals is through described fixing Hole 1311-3 the outer wall with described atomization core assembly 14 flexibly support, so that when described tank filler sleeve 122 During unlatching, described sealing lid 1312-2 lid is located on described fuel feed hole 141.The most as shown in Figure 4 B, through hole 1311-2 and fixing hole 1311-3 is circular slotted eye, and through hole 1311-2 is more than fixing hole 1311-3, institute Stating elastic sealing element 1312 is diaphragm seal, and described diaphragm seal includes that lid sets portion 1312-3 and connecting portion 1312-4, Described lid sets the outer wall of portion 1312-3 and described atomization core assembly 14 and flexibly supports, described connecting portion 1312-4 Outer wall button through described fixing hole 1311-3 and with described breather 1311 sets and is connected.Above-mentioned Fig. 4 A and Fig. 4 B is two kinds of elastic sealing element 1312 and is embodied as form, it is notable that in actual applications, Elastic sealing element 1312 can be also other form, is not specifically limited here.

In specific implementation process, in order to by rotating revolving part 132 so that the oil filler when adding ree-oil 122 open to greatest extent (the most exposed) or ree-oil add complete time oil filler 122 completely close, institute State and on breather assembly 131, be provided with the first limiting section, described oil storage assembly 12 is provided with and described The second limiting section that one limiting section matches, so that when rotating described revolving part 132, described second spacing Portion can limit the rotational steps of described revolving part 132, and then makes when adding ree-oil oil filler 122 The opening of limits (the most exposed) or when ree-oil adds complete oil filler 122 completely close.Concrete, One in described first limiting section and described second limiting section is spacing recess, and another is for being plugged in Spacing preiection in described spacing recess, so that when described spacing preiection is relative from one end of described spacing recess When described spacing recess moves to the other end of described spacing recess, described fuel feed hole 141 for being all turned on or Close All state.Specifically, refer to Fig. 5, the breather 1311 on breather assembly 131 with One end that described connection assembly 15 is adjacent is provided with limited impression 1311-4, arranges in described oil storage assembly 12 There is the stopper protrusion 124 being plugged on described limited impression 1311-4, so that rotating described revolving part 132 Time, described stopper protrusion 124 can limit the rotational steps of described revolving part 132.In specific implementation process In, oil storage assembly 12 is provided with limit base 120, as shown in Figure 6 A and 6 B, on limit base 120 It is provided with stopper protrusion 124.

It addition, in specific implementation process, in order to ensure when rotating revolving part 132, be atomized core assembly 14 Can not left-right rotation, can only being assemblied on oil storage assembly 12 of plug-in, referring still to Fig. 5 and Fig. 6 B, It is provided with the 3rd limiting section 142 on described atomization core assembly 14, described oil storage assembly 12 is provided with and institute State the 4th limiting section 125 that the 3rd limiting section 142 matches, during so that rotating described revolving part 132, institute State the 4th limiting section 125 and can limit the motion radially of described atomization core assembly 14, i.e. limit described mist Change core assembly 14 rotate, with guarantee be atomized core assembly 14 when revolving part 132 rotates, described atomization core group Produce relative rotation between part 14 and described revolving part 132.

In specific implementation process, refer to Fig. 2, Fig. 3 and Fig. 7 B, described revolving part 132 includes sheathed Rotating ring 1321 on described oil storage assembly 12 outer peripheral face, described rotating ring 1321 sidewall is provided with The perforation 1321-1 that described tank filler sleeve 122 coordinates, when described perforation 1321-1 and described tank filler sleeve 122 When putting coincidence, it is possible to add ree-oil in described shoe cream room 121 by described tank filler sleeve 122.

Further, refer to Fig. 2 and Fig. 3, in order to make between the inwall of oil filler 122 and rotating ring 1321 Seal, and then make when opening oil filler and adding ree-oil by oil filler 122 or close oil filler 122, Between the inwall of oil filler 122 and rotating ring 1321 will not leakage of oil, on the outer peripheral face of described oil storage assembly 12 It is provided with the groove 126 arranged around described oil filler 122 and is embedded the elastic ring in described groove 126 127, described elastic ring 127 flexibly supports on the inwall of described rotating ring 1321.

In specific implementation process, refer to Fig. 3 and Fig. 7 B, described revolving part 132 also includes by rotating One end of ring 1321 bends inwards and extends the annular end wall 1321-2 formed and by described annular end wall 1321-2 Inner peripheral extend the ring-shaped connecting wall 1321-3 formed to side, described rotating ring 1321 is set in described One end being connected with described component suction nozzle 11 of oil storage assembly 12, described annular end wall 1321-2 lid is located at institute State on the end face of oil storage assembly 12, described ring-shaped connecting wall 1321-3 and the grafting of described breather assembly 131 Being connected, one end of described component suction nozzle 11 is plugged in the space that ring-shaped connecting wall 1321-3 surrounds, described The other end of component suction nozzle 11 extends to outside described revolving part 132.

Further, referring still to Fig. 3 and Fig. 7 A, described component suction nozzle 11 includes a connecting seat of hollow 111, the second sealing ring 112, suction nozzle the 113, first elastic ring 114 and the first regulating QI ring 115, described One end of a connecting seat 111 is dismountable to be plugged in the space that described ring-shaped connecting wall 1321-3 surrounds, institute The other end stating a connecting seat 111 is connected with described suction nozzle 113, and described second sealing ring 112 is set in Abut on the outer peripheral face of described a connecting seat 111 and with described ring-shaped connecting wall 1321-3 elasticity, described One elastic ring 114 and described first regulating QI ring 115 are all set on described suction nozzle 113, and described first bullet Property ring 114 between described first regulating QI ring 115 and described suction nozzle 113 and with described first elastic ring 114 Elastic abutting, the position that described suction nozzle 113 is corresponding with described first regulating QI ring 115 is provided with the first air inlet Hole 1131, described first regulating QI ring 115 is provided be equipped with described first air inlet 1131 Two air inlets 1151, so that when rotating described first regulating QI ring 115, it is possible to regulate described first air inlet Overlapping area between 1131 and described second air inlet 1151, can meet the demand of different smoking dynamics.

In specific implementation process, referring still to Fig. 3 and Fig. 7 D, described atomization core assembly 14 includes hollow Atomization core print seat the 143, first dead ring the 144, first electrode 145, atomization core retainer plate 146, ree-oil adsorption sleeve 147, heating wire 148, wire netting 149 and the 3rd sealing ring 140, described atomization core retainer plate 146 and described One dead ring 144 is inserted in the two ends of described atomization core print seat 143 respectively, and described first electrode 145 is set in In described first dead ring 144 and abutting with the described assembly 15 that is connected, described ree-oil adsorption sleeve 147 is sheathed In described atomization core retainer plate 146, described heating wire 148 is wound in the column structure of hollow and is set in described In ree-oil adsorption sleeve 147, to guarantee that heating wire 148 can be fully contacted with ree-oil, thus effectively it is atomized Ree-oil, described ree-oil adsorption sleeve 147 is specifically as follows cotton etc. and can adsorb the material of ree-oil and make, its material It is not especially limited at this；One end of described heating wire 148 electrically connects with described first electrode 145, described The other end of heating wire 148 electrically connects with described atomization core retainer plate 146, and by described atomization core retainer plate 146 and Atomization core print seat 143 electrically connects with the described assembly 15 that is connected, and described wire netting 149 lid is located at described ree-oil and inhales On one end end face deviating from described first electrode 145 of attached set 147, it is used for hindering ree-oil towards component suction nozzle side The fine debris produced to flowing and filtration ree-oil adsorption sleeve 147, described 3rd sealing ring 140 is set in institute State on atomization core retainer plate 146 and abut with described oil storage assembly elasticity, and then making atomization core retainer plate 146 and oil storage group There is between part preferable air-tightness, the sidewall of described atomization core retainer plate 146 is provided with described fuel feed hole 141. Wherein, the first electrode 145 connects anode, and atomization core retainer plate 146 connects battery cathode, and then coupled electricity Heated filament 148 forms current loop, powers for heating wire 148, and makes heating wire 148 generate heat work.

Further, referring still to Fig. 3 and Fig. 7 E, described connection assembly 15 include the first adapter sleeve 151, Second adapter sleeve the 152, second dead ring the 153, second electrode the 154, second regulating QI ring 155 and second is elastic Ring 156, one end of described first adapter sleeve 151 is connected with the grafting of described oil storage assembly 12, and described first even The other end of female connector 151 is connected with described second adapter sleeve 152 grafting, the back of the body of described second adapter sleeve 152 From one end of described oil storage assembly 12 for being connected with described battery component 2, described second dead ring 153 It is set in one end deviating from described oil storage assembly 12 of described second adapter sleeve 152, described second electrode 154 are plugged in described second dead ring 153, one end of described second electrode 154 and described first electrode 145 abut, and the other end of described second electrode 154 is for being connected with described battery component 2, and then is the One electrode 145 provides battery positive voltage；

Described second regulating QI ring 155 and the second elastic ring 156 are all set on described first adapter sleeve 151, And described second elastic ring 156 between described second regulating QI ring 155 and described first adapter sleeve 151 also Abut with described second regulating QI ring 155 elasticity, described first adapter sleeve 151 and described second regulating QI ring 155 Corresponding position is provided with the 3rd air inlet 1511, described second regulating QI ring 155 is provided with and described the The 4th air inlet 1551 that three air inlets 1511 are equipped with, so that rotating described second regulating QI ring 155 Time, it is possible to regulate the overlapping area between described 3rd air inlet 1511 and described 4th air inlet 1551. Second regulating QI ring 155 is used in combination with above-mentioned first regulating QI ring 115 herein, connects in assembly 15 with regulation Air inflow, be possible not only to meet the demand of different smoking dynamics, and in atomization core assembly 14 can be made Portion's ree-oil reaches preferable atomizing effect.

In specific implementation process, referring still to Fig. 3 and Fig. 7 C, described oil storage assembly 12 includes metal material Connecting tube 12-1 that material is made, transparent atomization set 12-2, the first union joint 12-3, the second union joint 12-4 And second connect seat 12-5, described breather assembly 131 is plugged in described connecting tube 12-1, described company Described shoe cream room 121, described connecting tube 12-1 it is surrounded by between adapter 12-1 and described breather assembly 131 Sidewall on be provided with ree-oil observation window 12-11, be available for the residue ree-oil amount that user observes in shoe cream room 121, Described atomization set 12-2, the first union joint 12-3 and the second union joint 12-4 is all set in described connecting tube 12-1 On, described atomization set 12-2 is between described first union joint 12-3 and the second union joint 12-4, described Revolving part 132 is set on described first union joint 12-3 and is connected with described component suction nozzle 11, and described Two one end connecting seat 12-5 are connected with described connecting tube 12-1, the other end and described second union joint 12-4 Being connected, one end of described atomization core assembly 14 is plugged in described breather assembly 131, described atomization core The other end of assembly 14 is plugged in described connection assembly 15, and described second connects the outer peripheral face of seat 12-5 On be provided with the 4th sealing ring 17 flexibly supported with described second union joint 12-4, to ensure the second connection Head 12-4 and second connects the air-tightness between seat 12-5.It addition, in order to ensure atomization set 12-2 and first Air-tightness between union joint 12-3 and the second union joint 12-4, at atomization set 12-2 and the first union joint 12-3 It is provided with the first sealing gasket 12-6, between atomization set 12-2 and the second union joint 12-4, is provided with second close Packing 12-7.In specific implementation process, one end deviating from connecting tube 12-1 of the first union joint 12-3 is inserted Being connected in rotating ring 1321, the ring-shaped connecting wall 1321-3 and first in order to ensure rotating ring 1321 connects Air-tightness between head 12-3, is provided with the 5th between ring-shaped connecting wall 1321-3 and the first union joint 12-3 Sealing ring 18 (as illustrated in Figures 3 and 7 B).

In specific implementation process, one end deviating from atomization set 12-2 of the second union joint 12-4 is provided with First external screw thread, one end deviating from the second adapter sleeve 152 of the first adapter sleeve 151 is provided with and described First female thread of one external screw thread coupling, by the second union joint 12-4 and the screw thread of the first adapter sleeve 151 Connect, to realize oil storage assembly 12 and the connection connected between assembly 15.It addition, the second adapter sleeve 152 The one end deviating from the first adapter sleeve 151 on be provided with the second external screw thread, battery component 2 be connected assembly The inner face connecting end of 15 is provided with the second female thread mated with described second external screw thread, connects by second Set 152 and battery component 2 threaded, to realize connecting the company between assembly 15 and battery component 2 Connect.

Sum it up, by implement this utility model provide one or more technical schemes, at least have as Lower technique effect or advantage:

1) revolving part 132 and breather 1311 compression fit in the application scheme, on breather 1311 Being provided with elastic sealing element 1312, elastic sealing element 1312 is for blocking the fuel feed hole on atomization core assembly 14 141；Wherein, when electronic cigarette is in interpolation ree-oil state, by reversing revolving part 132, revolving part 132 Drive breather 1311 to rotate, make the elastic sealing element 1312 on breather 1311 block atomization core assembly Fuel feed hole 141 on 14, it is to avoid during adding ree-oil, leads in ree-oil penetrates into atomization core assembly 14 Cause the adverse consequences of leakage of oil；When electronic cigarette is in smoking state, by reversing revolving part 132, revolving part 132 drive breather 1311 to rotate, the projection on elastic sealing element 1312 on breather 1311 and atomization Fuel feed hole 141 on core assembly 14 staggers, and ree-oil is by the through hole 1311-2 on breather 1311 and atomization Fuel feed hole 141 on core assembly 14 contacts with ree-oil adsorption sleeve 147, so that heating wire 148 heating atomization The ree-oil of absorption on oil storage cotton.

2) it is provided with the first limiting section on breather assembly 131, oil storage assembly 12 is provided with and the first limit The second limiting section that position portion matches, so that when rotating described revolving part 132, described second limiting section energy Enough limit the rotational steps (i.e. angle) of described revolving part 132, when revolving part 132 rotates to some position When putting, the perforation 1321-1 on revolving part 132 overlaps with the tank filler sleeve 122 on oil storage assembly 12, Add ree-oil, when revolving part 132 rotates to another one position, perforation 1321-1 and tank filler sleeve 122 Stagger, make ree-oil be in a state sealed.It addition, it is spacing to be provided with the 3rd on atomization core assembly 14 Portion 142, oil storage assembly 12 is provided with the 4th limiting section 125 matched with the 3rd limiting section 142, with When making rotation revolving part 132, the 4th limiting section 125 can limit atomization core assembly 14 motion radially, To guarantee when rotating revolving part 132, atomization core assembly 14 can not left-right rotation, can only the dress of plug-in Fit on oil storage assembly 12.

3) in order to preferably prevent ree-oil from leaking outside, the tank filler sleeve 122 on oil storage assembly 12 is provided around One annular groove 126, and in described groove 126, it is embedded elastic ring 127, so that elastic ring 127 is elastic Support on the inwall of rotating ring 1321.

4) position that the suction nozzle 113 of component suction nozzle 11 is corresponding with the first regulating QI ring 115 is provided with first Air inlet 1131, arranges second be equipped with the first air inlet 1131 on the first regulating QI ring 115 and enters Pore 1151, so that when rotating the first regulating QI ring 115, it is possible to regulate the first air inlet 1131 and second Overlapping area between air inlet 1151, and adjust at the first adapter sleeve 151 and second connecting assembly 15 The position of compression ring 155 correspondence is provided with the 3rd air inlet 1511, arranges and the on the second regulating QI ring 155 The 4th air inlet 1551 that three air inlets 1511 are equipped with, so that when rotating the second regulating QI ring 155, The overlapping area between the 3rd air inlet 1511 and the 4th air inlet 1551 can be regulated, to regulate connection group Air inflow in part 15, is possible not only to meet the demand of different smoking dynamics, and can make atomization core group The internal ree-oil of part 14 reaches preferable atomizing effect.

Although having been described for preferred embodiment of the present utility model, but those skilled in the art once learning Basic creative concept, then can make other change and amendment to these embodiments.So, appended power Profit requires to be intended to be construed to include preferred embodiment and fall into all changes of this utility model scope and repair Change.

Obviously, those skilled in the art this utility model can be carried out various change and modification without deviating from Spirit and scope of the present utility model.So, if these amendments of the present utility model and modification belong to this reality Within the scope of novel claim and equivalent technologies thereof, then this utility model is also intended to comprise these changes With including modification.

Claims (18)

1. an atomizing component, for forming electronic cigarette with battery component combination, it is characterised in that: described Atomizing component includes component suction nozzle, oil storage assembly, rotary components, atomization core assembly and connects assembly, described Component suction nozzle and described connection assembly are connected to the opposite end of described oil storage assembly, described connection assembly The one end deviating from described oil storage assembly for being connected with described battery component；

Described rotary components includes breather assembly and the revolving part being connected with described breather assembly, described logical Trachea assembly is plugged in described oil storage assembly and is connected with described component suction nozzle, described breather assembly with It is formed with the shoe cream room for storing ree-oil between described oil storage assembly, the sidewall of described oil storage assembly is arranged There is the tank filler sleeve being connected with described shoe cream room；Described revolving part is rotating is set in described oil storage assembly On outer peripheral face, and it is equipped with described tank filler sleeve, so that described tank filler sleeve can be turned on and off when rotated；

At least one end of described atomization core assembly is plugged in described breather assembly, described atomization core assembly Being provided with fuel feed hole on sidewall, described fuel feed hole is equipped with the sidewall of described breather assembly, so that working as Rotating described revolving part makes described tank filler sleeve exposed out, and when can add ree-oil by described tank filler sleeve, Described revolving part drives described breather assembly to rotate, and makes described breather assembly lid be located at described fuel feed hole On, to hinder the ree-oil in described shoe cream room to enter in described atomization core assembly.

Atomizing component the most according to claim 1, it is characterised in that: described breather assembly includes Breather and elastic sealing element, one end of described breather is connected with described revolving part, described breather another One end is set on described atomization core assembly, and described elastic sealing element is fixed on the sidewall of described breather, Described elastic sealing element is correspondingly arranged with described fuel feed hole, and flexibly supports the outer wall at described atomization core assembly On, so that when opening described tank filler sleeve, described elastic sealing element lid is located on described fuel feed hole, with resistance Only the ree-oil in described shoe cream room enters in described atomization core assembly, when closing described tank filler sleeve, and described bullet Property sealing member staggers with described fuel feed hole.

Atomizing component the most according to claim 2, it is characterised in that: the inner peripheral surface of described breather And it is formed with the annular gap in the outside being positioned at described fuel feed hole, institute between the outer peripheral face of described atomization core assembly Stating annular gap to be connected with described shoe cream room, the ree-oil in described shoe cream room is entered by described annular gap In described fuel feed hole, with can be for described atomization core assembly fuel feeding；The close described suction of described atomization core assembly One end of nozzle assembly is provided with the first sealing ring that the inwall elasticity with described breather abuts, described to hinder Ree-oil in annular gap flows towards described component suction nozzle direction.

Atomizing component the most according to claim 3, it is characterised in that: the inner peripheral surface of described breather It is provided with the annular groove towards described connection stack face extending to described breather, described annular groove And form described annular gap between described atomization core assembly.

Atomizing component the most according to claim 3, it is characterised in that: on the sidewall of described breather It is provided with the through hole being connected with described shoe cream room and described annular gap, described through hole and described component suction nozzle Distance less than distance between described fuel feed hole and described component suction nozzle.

Atomizing component the most according to claim 2, it is characterised in that: on the sidewall of described breather Being provided with fixing hole, described fixing hole is correspondingly arranged with described fuel feed hole position；Described elastic sealing element is close Seal ring, described sealing ring includes ring body and is protruded the sealing formed by the inner peripheral surface of described ring body Lid, described ring body is set on described breather, and the described lid that seals is through described fixing hole and with described The outer wall of atomization core assembly flexibly supports, so that when opening when described tank filler sleeve, described sealing lid lid is located at On described fuel feed hole.

Atomizing component the most according to claim 2, it is characterised in that: on the sidewall of described breather Being provided with fixing hole, described fixing hole is correspondingly arranged with described fuel feed hole position；Described elastic sealing element is close Mounting, described diaphragm seal includes that lid sets portion and connecting portion, and described lid sets the outer wall in portion and described atomization core assembly Flexibly supporting, described connecting portion is connected through described fixing hole setting with the outer wall button of described breather.

Atomizing component the most according to claim 2, it is characterised in that: described breather with described Connect the adjacent one end of assembly and be provided with limited impression, be provided with in described oil storage assembly be plugged in described spacing Stopper protrusion on groove, so that when rotating described revolving part, described stopper protrusion can limit described rotation Turn the rotational steps of part.

Atomizing component the most according to claim 1, it is characterised in that: set on described breather assembly It is equipped with the first limiting section, described oil storage assembly is provided with second matched with described first limiting section spacing Portion, so that when rotating described revolving part, described second limiting section can limit the rotation width of described revolving part Degree.

Atomizing component the most according to claim 9, it is characterised in that: described first limiting section and institute One stated in both the second limiting sections is spacing recess, and another is the limit being plugged in described spacing recess Position is protruding, so that when described spacing preiection moves to from the most described spacing recess in one end of described spacing recess During the other end of described spacing recess, described fuel feed hole is for being all turned on or Close All state.

11. atomizing components according to claim 1, it is characterised in that: set on described atomization core assembly It is equipped with the 3rd limiting section, described oil storage assembly is provided with the 4th matched with described 3rd limiting section spacing Portion, during so that rotating described revolving part, described 4th limiting section can limit described atomization core assembly radially Motion.

12. atomizing components according to claim 1, it is characterised in that: described revolving part includes sheathed Rotating ring on described oil storage assembly outer peripheral face, described rotating ring sidewall is provided with and joins with described tank filler sleeve The perforation closed, when described perforation overlaps with described tank filler sleeve position, it is possible to by described tank filler sleeve to described Ree-oil is added in shoe cream room.

13. atomizing components according to claim 12, it is characterised in that: outside described oil storage assembly It is provided with the groove arranged around described oil filler on side face and is embedded the elastic ring in described groove, described Elastic ring flexibly supports on the inwall of described rotating ring.

14. atomizing components according to claim 12, it is characterised in that: described revolving part also includes Bent inwards by one end of rotating ring extend the annular end wall that formed and by the inner peripheral of described annular end wall to Side extends the ring-shaped connecting wall formed, and described rotating ring is that be set in described oil storage assembly with described suction nozzle group One end that part is connected, described annular end wall lid is located on the end face of described oil storage assembly, described ring-shaped connecting wall Being connected with described breather modular connector, one end of described component suction nozzle is plugged in described ring-shaped connecting wall and surrounds Space in, the other end of described component suction nozzle extends to outside described revolving part.

15. atomizing components according to claim 14, it is characterised in that: described component suction nozzle includes A connecting seat of hollow, the second sealing ring, suction nozzle, the first elastic ring and the first regulating QI ring, described first One end of connection seat is dismountable to be plugged in the space that described ring-shaped connecting wall surrounds, described a connecting seat The other end be connected with described suction nozzle, described second sealing ring is set on the outer peripheral face of described a connecting seat And abut with described ring-shaped connecting wall elasticity, described first elastic ring and described first regulating QI ring are all set in institute State on suction nozzle, and described first elastic ring is between described first regulating QI ring and described suction nozzle and with described One elastic ring elasticity abuts, and the position that described suction nozzle is corresponding with described first regulating QI ring is provided with the first air inlet Hole, described first regulating QI ring is provided with the second air inlet being equipped with described first air inlet, so that When rotating described first regulating QI ring, it is possible to regulate between described first air inlet and described second air inlet Overlapping area.

16. atomizing components according to claim 1, it is characterised in that: described atomization core assembly includes The atomization core print seat of hollow, the first dead ring, the first electrode, atomization core retainer plate, ree-oil adsorption sleeve, heating wire, Wire netting and the 3rd sealing ring, described atomization core retainer plate and described first dead ring are inserted in described atomization core respectively The two ends of seat, abut in described first electrode sleeve is located at described first dead ring and with the described assembly that is connected, institute Stating ree-oil adsorption sleeve to be set in described atomization core retainer plate, described heating wire winding becomes the column structure of hollow and overlaps Being located in described ree-oil adsorption sleeve, one end of described heating wire electrically connects with described first electrode, described electric heating The other end of silk electrically connects with described atomization core retainer plate, and by described atomization core retainer plate and atomization core print seat and described company Connected components electrically connects, and described metal square is located at one end deviating from described first electrode of described ree-oil adsorption sleeve On end face, described 3rd sealing ring is set on described atomization core retainer plate and abuts with described oil storage assembly elasticity, It is provided with described fuel feed hole on the sidewall of described atomization core retainer plate.

17. atomizing components according to claim 16, it is characterised in that: described connection assembly includes First adapter sleeve, the second adapter sleeve, the second dead ring, the second electrode, the second regulating QI ring and the second elastic ring, One end of described first adapter sleeve is connected with described oil storage modular connector, the other end of described first adapter sleeve with Described second adapter sleeve grafting be connected, one end deviating from described oil storage assembly of described second adapter sleeve for Described battery component is connected, and what described second dead ring was set in described second adapter sleeve deviates from described oil storage group In one end of part, described second electrode is plugged in described second dead ring, one end of described second electrode with Described first electrode abuts, and the other end of described second electrode is for being connected with described battery component；

Described second regulating QI ring and the second elastic ring are all set on described first adapter sleeve, and described second bullet Property ring supports between described second regulating QI ring and described first adapter sleeve and with described second regulating QI ring resilience Connecing, the position that described first adapter sleeve is corresponding with described second regulating QI ring is provided with the 3rd air inlet, described The 4th air inlet being equipped with described 3rd air inlet it is provided with, so that rotating institute on second regulating QI ring When stating the second regulating QI ring, it is possible to regulate the face that overlaps between described 3rd air inlet and described 4th air inlet Long-pending.

18. atomizing components according to claim 1, it is characterised in that: described oil storage assembly includes gold Belong to connecting tube, transparent atomization set, the first union joint, the second union joint and the second connection seat that material is made, Described breather assembly is plugged in described connecting tube, surrounds between described connecting tube and described breather assembly There is described shoe cream room, the sidewall of described connecting tube is provided with ree-oil observation window, described atomization set, the first company Joint and the second union joint are all set in described connecting tube, described atomization set be positioned at described first union joint and Between described second union joint, described revolving part be set on described first union joint and with described component suction nozzle Being connected, described second one end connecting seat is connected with described connecting tube, the other end and described second union joint phase Even, one end of described atomization core assembly is plugged in described breather assembly, another of described atomization core assembly End is plugged in described connection assembly, the outer peripheral face of described second connection seat is provided with and is connected with described second The 4th sealing ring that head flexibly supports.