CN204232299U - A kind of atomizing component and electronic cigarette - Google Patents

Abstract

The utility model discloses a kind of atomizing component and electronic cigarette, described atomizing component comprises the oil storage cover of light-permeable, one end of described oil storage cover is provided with component suction nozzle, the other end of described oil storage cover is the openend with receiving space, install in described receiving space that at least one can split out from described openend for atomizing cigarette oil atomization core, coaxially arrange and dismountable connection between described atomization core when described atomization core is two or more, be arranged with in described oil storage cover can along described atomizing component move axially enable described receiving space hold the breather pipe of one or more described atomization core, described breather pipe is used for the smog of described atomization core atomization to be expelled to described component suction nozzle.The beneficial effects of the utility model: the receiving space in oil storage cover can hold one or more atomization core, therefore user can change according to self-demand the quantity that atomization core is overlapped in oil storage, improves amount of smoke.

Description

A kind of atomizing component and electronic cigarette

Technical field

The utility model relates to electronic cigarette field, more particularly, relates to a kind of atomizing component and electronic cigarette.

Background technology

In prior art, electronic cigarette comprises atomizing component and battery component, atomizing component comprises interconnective oil storage cover and atomization core, wherein be atomized that core is dismountable to be connected to oil storage and to put, and dismountable being connected to of battery component is atomized on core, but the oil storage cover of existing electronic cigarette can only hold an atomization core, can not change the quantity of atomization core, cannot meet the different demands of user.

Utility model content

The technical problems to be solved in the utility model is, for above-mentioned defect of the prior art, provides a kind of atomizing component and electronic cigarette.

The utility model solves the technical scheme that its technical problem adopts:

A kind of atomizing component is provided, for being combined to form electronic cigarette with battery component, described atomizing component comprises the oil storage cover of light-permeable, one end of described oil storage cover is provided with component suction nozzle, the other end of described oil storage cover is the openend with receiving space, install at least one in described receiving space to split out from described openend and for atomizing cigarette oil atomization core, coaxially arrange and dismountable connection between described atomization core when described atomization core is two or more, being arranged with in described oil storage cover can along the breather pipe moving axially to make to hold one or more described atomization core in described receiving space of described atomizing component, described breather pipe is used for the smog of described atomization core atomization to be expelled to described component suction nozzle, described breather pipe and described oil storage are formed with the shoe cream room for storing tobacco tar between overlapping,

One end of described atomization core is provided with the first electrode assemblie be electrically connected with described battery component, the described atomization core adjacent with described component suction nozzle is connected with described breather pipe elastic packing away from one end of described battery component, described atomization in-core is provided with atomization chamber, contain the heating wire assembly be electrically connected with described first electrode assemblie in described atomization chamber, the wall place, chamber of described atomization chamber is provided with the oil guiding hole for the tobacco tar in shoe cream room being imported described heating wire assembly.

In atomizing component described in the utility model, described component suction nozzle comprises the suction nozzle being connected to described oil storage and putting, and to be fixed in described suction nozzle and the tube connector be conducted with described suction nozzle, one end of described breather pipe is slidably connected on described tube connector, the other end of described breather pipe is connected with the grafting of described atomization core, moving axially along described tube connector when described breather pipe is stressed, and drive described atomization core move and then change the axial distance of described receiving space.

In atomizing component described in the utility model, described component suction nozzle also comprises and is fixed on the fixed cover that one end is overlapped in described oil storage, described suction nozzle is arranged on described fixed cover, described suction nozzle has venthole, one end of described tube connector is fixed on the periphery of described venthole, and the other end of described tube connector extends towards near the side of described atomization core.

In atomizing component described in the utility model, the madial wall of described fixed cover is convexly equipped with the annular protrusion moved radially for limiting described breather pipe, the centre bore matched in clearance of described breather pipe and described annular protrusion.

In atomizing component described in the utility model, described component suction nozzle also comprises the elastic component be set in outside described tube connector, and described elastic component two ends respectively elasticity abut the port lateral margin to described suction nozzle and described breather pipe.

In atomizing component described in the utility model, be embedded with the keeper moved axially for limiting described suction nozzle in described fixed cover, described suction nozzle is rotating to be connected between described fixed cover and described keeper;

Described breather pipe is threaded connection that structure is mobilizable to be set in outside described tube connector, and the stressed rotation of described suction nozzle makes described breather pipe moving axially along described tube connector; The position-limit mechanism that the circumference for limiting described breather pipe is rotated is provided with between described breather pipe and described fixed cover; Described position-limit mechanism comprises the buckle of at least one projection on described breather pipe periphery wall, and at least one is arranged on the draw-in groove suitable with described buckle on described annular flange flange inwall.

In atomizing component described in the utility model, described atomization core comprises atomization cover, and is set in the atomization lid of described atomization cover one end; Described atomization core comprises several, and the atomization cover being atomized an atomization core in core described in adjacent two is connected with another the atomization lid grafting being atomized core be atomized described in adjacent two in core.

In atomizing component described in the utility model, be threaded connection structure between the atomization cover being atomized core cover with atomization or slotting revolve syndeton and be connected described in adjacent two.

In atomizing component described in the utility model, described first electrode assemblie is fixed on one end of the close described battery component of atomization cover described in each, and the other end being atomized cover described in each is provided with the second electrode assemblie be electrically connected with described first electrode assemblie; The first electrode assemblie being atomized an atomization core in core described in adjacent two offsets with another second electrode assemblie being atomized core be atomized described in adjacent two in core and is electrically connected.

The utility model also provides a kind of electronic cigarette, comprises battery component, also comprises atomizing component as described above.

In sum, implement atomizing component of the present utility model and electronic cigarette, there is following beneficial effect: first, the breather pipe that can move along its axis is provided with in oil storage cover, that can overlap along oil storage because this breather pipe is stressed moving axially, make the receiving space in oil storage cover can hold one or more atomization core, therefore user can change according to self-demand the quantity that atomization core is overlapped in oil storage, improves amount of smoke.Secondly, when the atomization core between oil storage cover is multiple, is dismountable connection between adjacent two atomization cores, makes easy accessibility between atomization core, facilitate user to change atomization core.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the explosive view of the electronic cigarette that one of the utility model preferred embodiment provides;

Fig. 2 is the battery component of electronic cigarette shown in Fig. 1 and the structural representation of atomizing component;

Fig. 3 is the structural representation of the first structure of atomizing component shown in Fig. 2;

Fig. 4 is the structural representation of the second structure of atomizing component shown in Fig. 2;

Fig. 5 is the stereogram of the component suction nozzle of atomizing component shown in Fig. 4;

Fig. 6 is the structural representation of component suction nozzle shown in Fig. 5;

Fig. 7 is the explosive view of component suction nozzle shown in Fig. 5;

Fig. 8 is the stereogram of the atomization core of atomizing component shown in Fig. 4;

Fig. 9 is the structural representation of the core of atomization shown in Fig. 8;

Figure 10 is the structural representation of the first structure of the atomizing component that two of the utility model preferred embodiment provides;

Figure 11 is the structural representation of the second structure of the atomizing component that two of the utility model preferred embodiment provides;

Figure 12 is the structural representation of the component suction nozzle of atomizing component shown in Figure 11;

Figure 13 is the stereogram of the first angle of the atomization core of atomizing component shown in Figure 11;

Figure 14 is the stereogram of the second angle of the atomization core of atomizing component shown in Figure 11.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Fig. 1 and Fig. 2 shows a kind of atomizing component that one of the utility model preferred embodiment provides, described atomizing component is used for being combined to form electronic cigarette with battery component 4, this atomizing component comprises lubricating cup assembly 2, and is connected to component suction nozzle 1 and the atomization core 3 at lubricating cup assembly 2 two ends.

As shown in Figure 3, lubricating cup assembly 2 comprises the oil storage cover 21 of light-permeable, one end of oil storage cover 21 is provided with component suction nozzle 1, and the other end of oil storage cover 21 is the openend with receiving space, has installed at least one and can split out from openend and for atomizing cigarette oil atomization core 3 in described receiving space.

As shown in Figure 4, when atomization core 3 is two or more, coaxially arrange and dismountable connection between atomization core 3, the breather pipe 22 that can move along its axis to make to hold one or more atomization core 3 in described receiving space is arranged with in oil storage cover 21, breather pipe 22 is for being expelled to component suction nozzle 1 by the smog that is atomized of atomization core 3, and the shoe cream room 23 be formed between 21 for storing tobacco tar is overlapped in breather pipe 22 and oil storage.

As shown in Figure 9, one end of described atomization core 3 is provided with the first electrode assemblie 35 be electrically connected with battery component 4, shown in composition graphs 4, one end away from battery component 4 of the atomization core 3 adjacent with component suction nozzle 1 is connected with breather pipe 22 elastic packing, atomization chamber 33 is provided with in atomization core 3, contain the heating wire assembly 34 be electrically connected with the first electrode assemblie 35 in atomization chamber 33, the wall place, chamber of atomization chamber 33 is provided with the oil guiding hole 331 for the tobacco tar in shoe cream room 23 being imported heating wire assembly 34.

In the present embodiment, the breather pipe 22 that can move along its axis is provided with in oil storage cover 21,21 move axially can be overlapped along oil storage because this breather pipe 22 is stressed, the receiving space that oil storage is overlapped in 21 can hold one or more atomization core 3, therefore user can change according to self-demand the quantity that 21 atomization cores 3 are overlapped in oil storage, improves amount of smoke.

The concrete structure of embodiment shown in composition graphs 5, Fig. 6 and Fig. 7 to component suction nozzle 1 is described in detail.

As shown in Figure 6, component suction nozzle 1 comprises suction nozzle 11, fixed cover 13 and keeper 14.Wherein, suction nozzle 11 is connected to one end of oil storage cover 21, tube connector 12 is fixed in suction nozzle 11, one end of breather pipe 22 is slidably connected on this tube connector 12, and can moving axially along tube connector 12, the other end of breather pipe 22 is connected with the grafting of atomization core 3, and stressed the moving axially along tube connector 12 of breather pipe 22, and drive atomization core 3 to move and then change the axial distance of receiving space in oil storage cover 21, oil storage is overlapped in 21 and can accommodate at least one atomization core 3.

Concrete, shown in composition graphs 7, fixed cover 13 is the column structure of hollow, and its one end is fixed on oil storage cover 21 one end away from battery component 4, and the other end of fixed cover 13 is connected with suction nozzle 11.The madial wall of fixed cover 13 is convexly equipped with the annular protrusion 131 moved radially for limiting breather pipe 22, breather pipe 22 wear from this annular protrusion 131 and with annular protrusion 131 interference fit.

Keeper 14 is roughly circulus, its fixed cover is located in fixed cover 13 one end away from battery component 4, and for limiting moving axially of suction nozzle 11, what make suction nozzle 11 to rotate is connected between fixed cover 13 and keeper 14, but can not moving axially along atomizing component.

Suction nozzle 11 is rotating to be connected between fixed cover 13 and keeper 14, its one end away from battery component 4 offers the venthole 111 for being discharged by smog.In the present embodiment, keeper 14 forms a groove near the sidewall of one end of battery component 4 and fixed cover 13, suction nozzle 11 position corresponding with this groove is provided with flange, and this flange is rotating is embedded in groove, and makes suction nozzle 11 can not moving axially along atomizing component.

One end of tube connector 12 is fixed on the periphery of venthole 111, and the other end of tube connector 12 extends towards near the side of battery component 4, and breather pipe 22 is slidably located on tube connector 12, and can moving axially along tube connector 12.In the present embodiment, for being threaded between breather pipe 22 with tube connector 12, the outer wall of tube connector 12 offers external thread structure, the inwall of breather pipe 22 is provided with the female thread structure suitable with this external thread structure.Therefore, when rotary suction nozzle 11, suction nozzle 11 drives the tube connector 12 be fixed in suction nozzle 11 to rotate together, and the tube connector 12 of rotation is threaded connection structure and drives breather pipe 22 moving axially along tube connector 12.Be understandable that, in other embodiments, can also adopt alternate manner, make slidably to connect between breather pipe 22 and tube connector 12, the present embodiment does not limit the concrete mode be slidably connected between breather pipe 22 and tube connector 12.

Preferably, as shown in Figure 7, the position-limit mechanism that the circumference for limiting breather pipe 22 is rotated is provided with between breather pipe 22 and fixed cover 13; Described position-limit mechanism comprises the buckle 221 of at least one projection on breather pipe 22 periphery wall, and at least one is arranged on the draw-in groove 132 suitable with buckle 221 on annular flange flange 131 inwall.Thus avoid breather pipe 22 to rotate around tube connector 12 circumference, and can not moving axially along tube connector 12.

In assembling process, stressed the moving axially along tube connector 12 of breather pipe 22, and drive atomization core 3 to move and then change the axial distance of receiving space in oil storage cover 21, oil storage is overlapped in 21 and can accommodate at least one atomization core 3.

Preferably, the outer face of suction nozzle 11 is sphere, makes suction nozzle 11 more attractive in appearance, and the suction nozzle 11 that outer face is sphere is more convenient for clearing up dirt.In addition, outer face is that suction nozzle 11 structural soundness of sphere is better, and when the hard object such as the tooth in oral cavity can be avoided to be clamped on suction nozzle 11, suction nozzle 11 is easily out of shape and comes off.

Preferably, in this enforcement, suction nozzle 11 and fixed cover 13 are metal material product, when the hard object such as the tooth in oral cavity can be avoided to be clamped on fixed cover 13, suction nozzle 11 holds caducous phenomenon, wherein, described metal can be the metals such as copper, iron or steel, does not do concrete restriction at this.

The concrete structure of embodiment shown in composition graphs 8 and Fig. 9 to atomization core 3 is described in detail.

The two ends of atomization core 3 overlap 21 and battery component 4 is dismountable is connected respectively with oil storage, this structure removably connected can be screw connection structure or buckle connecting structure etc., in the present embodiment, atomization core 3 is with the oil storage connection of overlapping between 21 and battery component 4 and is threaded.

As shown in Figure 9, be atomized core 3 and mainly comprise atomization cover 31, atomization lid 32, atomization chamber 33, heating wire assembly 34, first electrode assemblie 35 and the second electrode assemblie 36.

Wherein, first electrode assemblie 35 is connected to atomization cover 31 one end away from component suction nozzle 1, second electrode assemblie 36 is connected to atomization cover 31 near one end of component suction nozzle 1, it is inner that atomization chamber 33 is located at atomization cover 31, heating wire assembly 34 is housed in this atomization chamber 33, and is electrically connected with the first electrode assemblie 35.Atomization lid 32 is set on atomization cover 31 and breather pipe 22, and supports on heating wire assembly 34, and one end of breather pipe 22 is passed this atomization lid 32 and supported in the end of atomization cover 31.

As shown in Figure 4, when being atomized core 3 and comprising several, an atomization core 3 away from component suction nozzle 1 in several atomization cores 3 is connected with battery component 4 is dismountable, and the first electrode assemblie 35 of this atomization core 3 is electrically connected with battery component 4.An atomization core 3 near component suction nozzle 1 in several atomization cores 3 is connected with breather pipe 22 grafting.Further, atomization cover 31 and adjacent two another atomizations being atomized core 3 be atomized in core 3 of an atomization core 3 in adjacent two atomization cores 3 are covered 32 grafting and are connected.In the present embodiment, be threaded connection the dismountable grafting of structure between adjacent two atomization cores 3 and be connected.

Concrete, as shown in Figure 9, atomization cover 31 is roughly the column structure of hollow, and its periphery wall away from component suction nozzle 1 one end is provided with the external thread structure for removably connecting with the atomization lid 32 of adjacent atomization core 3.First electrode assemblie 35 is connected to atomization cover 31 one end away from component suction nozzle 1, and the second electrode assemblie 36 is connected to atomization cover 31 near one end of component suction nozzle 1.

Preferably, shown in composition graphs 8, oil guiding hole 331 is opened on the periphery wall of atomization cover 31, and is connected with atomization chamber 33, and the tobacco tar in shoe cream room 21 imports heating wire assembly 34 by this oil guiding hole 331.In the present embodiment, oil guiding hole 331 comprises two, the setting of two oil guiding hole 331 relative spacings, and heating wire assembly 34 sets up and is fixed in described two oil guiding holes 331.

Preferably, shown in composition graphs 9, in order to better support heating wire assembly 34, atomization cover 31 is provided with the projection 311 for supporting heating wire assembly 34, one end of this projection 311 is fixed on the periphery of oil guiding hole 331, and the other end extends towards the axial direction away from atomization cover 31.By arranging protruding 311, the sidewall supporting heating wire assembly 34 can be avoided to cross thin and heating wire assembly 34 is slipped in atomization chamber 33.

Heating wire assembly 34 comprises oil-deflecting element and heating wire, and oil-deflecting element is made up of oil absorption material, and it is fixed in the oil guiding hole 331 of atomization cover 31, and the two ends of oil-deflecting element are each passed through this oil guiding hole 331 and extend in shoe cream room 23.Heating wire winding is on this oil-deflecting element, and the two ends of heating wire are electrically connected with the first electrode assemblie 35 respectively.

Atomization lid 32 is roughly the column structure of hollow, and it is set in atomization cover 31 near one end of component suction nozzle 1, and atomization lid 32 supports on heating wire assembly 43 near one end of battery component 4.Atomization lid 32 is provided with accommodating cavity 321 in one end of component suction nozzle 1, and the atomization cover 31 of an atomization core 3 in adjacent two atomization cores 3 is inserted in the accommodating cavity 321 of the atomization lid 32 of another atomization core 3 in adjacent two atomization cores 3.

Concrete, accommodating cavity 321 offers female thread structure near the side of component suction nozzle 1, and it is suitable with the external thread structure on atomization cover 31, and atomization cover 31 links together by above-mentioned screw connection structure is dismountable with atomization lid 32.

First electrode assemblie 35 is connected to atomization cover 31 one end away from component suction nozzle 1, and the second electrode assemblie 36 is connected to atomization cover 31 near one end of component suction nozzle 1, and is electrically connected by electric wire 37 between the first electrode assemblie 35 with the second electrode assemblie 36.Another second electrode assemblie 36 being atomized core 3 that first electrode assemblie 35 and adjacent two of an atomization core 3 in adjacent two atomization cores 3 is atomized in core 3 offsets and is electrically connected.

In assembling process, adjacent two atomization core 3 grafting be connected, an atomization core 3 away from component suction nozzle 1 in several atomization cores 3 described is connected with battery component 4 is dismountable, and the first electrode assemblie 35 of this atomization core 3 is electrically connected with battery component 4.First electrode assemblie 35 of atomization core 3 is electrically connected with the heating wire assembly 34 of this atomization core 3 and the second electrode assemblie 36 respectively, and namely the heating wire assembly 34 of this atomization core 3 and the second electrode assemblie 36 are not directly electrically connected.Further, the second electrode assemblie 36 of this atomization core 3 is adjacent the first electrode assemblie 35 being atomized core 3 and offsets and be electrically connected, and will be electrically communicated to atomization cores 3 near component suction nozzle 1 in several atomization cores 3 described thus successively.Further, be atomized core 3 be connected with breather pipe 22 elastic packing near with one of component suction nozzle 1 in several atomization cores 3 described, and breather pipe 22 extends in the accommodating cavity 321 of this atomization core 3, and offset with the second electrode assemblie 36.

The concrete structure of embodiment shown in composition graphs 2 and Fig. 3 to lubricating cup assembly 2 is described in detail.

As shown in Figure 3, lubricating cup assembly 2 mainly comprises oil storage cover 21, breather pipe 22 and shoe cream room 23.

Oil storage cover 21 is roughly cylinder-like structure, the two ends of oil storage cover 21 are connected to connector 5 and component suction nozzle 1, oil storage cover 21 is removably connected by connector 5 and atomization core 3, in the present embodiment, is threaded connection that structure is dismountable to be connected between connector 5 with atomization core 3.And connector 5 and battery component 4 support on conjunction face or connector 5 extends to oil storage one end overlapped outside 21 and offers the air admission hole for air inlet be conducted with atomization chamber 33.

Further, breather pipe 22 overlaps in 21 along the oil storage that is axially disposed within of oil storage cover 21, and be formed with shoe cream room 23 between oil storage cover 21 and breather pipe 22, the tobacco tar that atomization core 3 is atomized is stored in this shoe cream room 23.Conveniently user checks the surplus of tobacco tar in shoe cream room 23, and in the present embodiment, oil storage cover 21 is obtained by the material of light-permeable.

Breather pipe 22 is surrounded by the gas channel for being circulated to for air-flow in component suction nozzle 1, and the two ends of breather pipe 22 are plugged in component suction nozzle 1 and atomization core 3 respectively.

Figure 10 and Figure 11 shows the atomizing component that two of the utility model preferred embodiment provides, and the difference of one of itself and embodiment is that the structure and adjacent two of component suction nozzle 1 is atomized the mode removably connected between cores 3.

As shown in figure 12, component suction nozzle 1 comprises suction nozzle 11, tube connector 12, fixed cover 13 and elastic component 15.Wherein, elastic component 15 is set in outside tube connector 12, and the two ends of this elastic component 15 difference elasticity abuts the port lateral margin to suction nozzle 11 and breather pipe 22.The stressed extruding elastic component 15 of breather pipe 22, elastic component 15 pressurized shrinks and makes breather pipe 22 moving axially along tube connector 12, and drive atomization core 3 to move and then change the axial distance of receiving space in oil storage cover 21, oil storage is overlapped in 21 and can accommodate at least one atomization core 3.

Further, in the present embodiment, the Detachable connection structure between adjacent two atomization cores 3 revolves syndeton for inserting.This inserts the eye-splice 381 and the slot 382 that revolve syndeton and comprise fastening mutually, and as shown in figure 13, eye-splice 381 projection is on the lateral wall of atomization cover 31, and as shown in figure 14, slot 382 is opened on the madial wall of atomization lid 32.

Concrete, slot 382 is in " L " type, slot 382 comprises the insertion passage and rotating channel that are mutually smoothly connected, insert passage and be opened in the port of atomization lid 32 and axially extending towards the side away from eye-splice 381 along atomization lid 32, rotating channel be connected to insertion passage away from one end of eye-splice 381 and the circumference along electrospray lid 32 extend.

During assembling, first the eye-splice 381 on atomization cover 31 is moved to the bottom of inserting passage along inserting passage, then rotary-atomizing core 3, makes eye-splice 381 move in rotating channel, thus realizes removably connecting between adjacent two atomization cores 3.

In the present embodiment, the quantity of buckle 61 and draw-in groove 62 is one, is understandable that, the application does not limit the concrete quantity of buckle 61 and draw-in groove 62, as long as its slotting revolving that can realize between adjacent two atomization cores 3 connects.

The application also provides a kind of electronic cigarette, this electronic cigarette comprises interconnective battery component 4 and atomizing component, this atomizing component is atomizing component described above, and battery component 4 is the conventional battery component of prior art, therefore does not repeat them here the concrete structure of battery component 4 and atomizing component.

In sum, implement atomizing component of the present utility model and electronic cigarette, there is following beneficial effect:

(1) breather pipe that can move along its axis is provided with in oil storage cover, that can overlap along oil storage because this breather pipe is stressed moving axially, make the receiving space in oil storage cover can hold one or more atomization core, therefore user can change according to self-demand the quantity that atomization core is overlapped in oil storage, improves amount of smoke.

(2), when the atomization core between oil storage cover is multiple, is dismountable connection between adjacent two atomization cores, makes easy accessibility between atomization core, facilitate user to change atomization core.

(3) being atomized core and lubricating cup assembly is the structure removably connected, and the atomization core facilitating user to change to have damaged, avoids the wasting of resources.

(4) oil storage cover is obtained by the material of light-permeable, and user can be facilitated to check the surplus of tobacco tar in shoe cream room.

Although the utility model is described by specific embodiment, it will be appreciated by those skilled in the art that, when not departing from the utility model scope, various conversion can also be carried out and be equal to substituting to the utility model, such as, described component suction nozzle 1 is a body, this body and described breather pipe 22 one-body molded, described breather pipe 22 and described oil storage are overlapped 21 and are connected etc. by screw thread.In addition, for particular condition or material, various amendment can be made to the utility model, all not depart from scope of the present utility model.Therefore, the utility model is not limited to disclosed specific embodiment, and should comprise the whole embodiments fallen in the utility model right.

Claims (10)

1. an atomizing component, for being combined to form electronic cigarette with battery component (4), it is characterized in that, described atomizing component comprises the oil storage cover (21) of light-permeable, one end of described oil storage cover (21) is provided with component suction nozzle (1), the other end of described oil storage cover (21) is the openend with receiving space, install at least one in described receiving space to split out from described openend and for atomizing cigarette oil atomization core (3), coaxially arrange and dismountable connection between described atomization core (3) is for atomization core (3) described time two or more, being arranged with in described oil storage cover (21) can along the breather pipe (22) moving axially to make to hold one or more described atomization core (3) in described receiving space of described atomizing component, described breather pipe (22) is expelled to described component suction nozzle (1) for the smog described atomization core (3) be atomized, the shoe cream room (23) for storing tobacco tar is formed between described breather pipe (22) and described oil storage cover (21),

One end of described atomization core (3) is provided with the first electrode assemblie (35) be electrically connected with described battery component (4), the described atomization core (3) adjacent with described component suction nozzle (1) is connected with described breather pipe (22) elastic packing away from one end of described battery component (4), atomization chamber (33) is provided with in described atomization core (3), the heating wire assembly (34) be electrically connected with described first electrode assemblie (35) is contained in described atomization chamber (33), the wall place, chamber of described atomization chamber (33) is provided with the oil guiding hole (331) for the tobacco tar in shoe cream room (23) being imported described heating wire assembly (34).

2. atomizing component according to claim 1, it is characterized in that, described component suction nozzle (1) comprises the suction nozzle (11) be connected on described oil storage cover (21), and to be fixed in described suction nozzle (11) and the tube connector (12) be conducted with described suction nozzle (11), one end of described breather pipe (22) is slidably connected on described tube connector (12), the other end of described breather pipe (22) is connected with the grafting of described atomization core (3), moving axially along described tube connector (12) when described breather pipe (22) is stressed, and drive described atomization core (3) to move and then change the axial distance of described receiving space.

3. atomizing component according to claim 2, it is characterized in that, described component suction nozzle (1) also comprises the fixed cover (13) being fixed on described oil storage cover (21) one end, described suction nozzle (11) is arranged on described fixed cover (13), described suction nozzle (11) has venthole (111), one end of described tube connector (12) is fixed on the periphery of described venthole (111), and the other end of described tube connector (12) extends towards near the side of described atomization core (3).

4. atomizing component according to claim 3, it is characterized in that, the madial wall of described fixed cover (13) is convexly equipped with the annular protrusion (131) moved radially for limiting described breather pipe (22), the centre bore matched in clearance of described breather pipe (22) and described annular protrusion (131).

5. atomizing component according to claim 4, it is characterized in that, described component suction nozzle (1) also comprises and is set in described tube connector (12) elastic component outward (15), and described elastic component (15) two ends respectively elasticity abut the port lateral margin to described suction nozzle (11) and described breather pipe (22).

6. atomizing component according to claim 4, it is characterized in that, be embedded with the keeper (14) moved axially for limiting described suction nozzle (11) in described fixed cover (13), described suction nozzle (11) is rotating to be connected between described fixed cover (13) and described keeper (14);

Described breather pipe (22) is threaded connection that structure is mobilizable is set in described tube connector (12) outward, and described suction nozzle (11) stressed rotation makes described breather pipe (22) moving axially along described tube connector (12); The position-limit mechanism that the circumference for limiting described breather pipe (22) is rotated is provided with between described breather pipe (22) and described fixed cover (13); Described position-limit mechanism comprises the buckle (221) of at least one projection on described breather pipe (22) periphery wall, and at least one is arranged on the draw-in groove (132) suitable with described buckle (221) on described annular flange flange (131) inwall.

7. atomizing component according to claim 1, is characterized in that, described atomization core (3) comprises atomization cover (31), and is set in the atomization lid (32) of described atomization cover (31) one end; Described atomization core (3) comprises several, and the atomization cover (31) being atomized atomization core (3) in core (3) described in adjacent two is connected with another atomization lid (32) grafting being atomized core (3) be atomized described in adjacent two in core (3).

8. atomizing component according to claim 7, is characterized in that, the atomization cover (31) being atomized core (3) described in adjacent two and atomization covers and to be threaded connection structure between (32) or slottingly to revolve syndeton and be connected.

9. atomizing component according to claim 8, it is characterized in that, described first electrode assemblie (35) is fixed on atomization cover (31) described in each near one end of described battery component (4), and described in each, the other end of atomization cover (31) is provided with the second electrode assemblie (36) be electrically connected with described first electrode assemblie (35); The first electrode assemblie (35) being atomized atomization core (3) in core (3) described in adjacent two offsets with another second electrode assemblie (36) being atomized core (3) be atomized described in adjacent two in core (3) and is electrically connected.

10. an electronic cigarette, comprises battery component, it is characterized in that, also comprise as arbitrary in claim 1 to 9 as described in atomizing component.