CN204617062U - 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 comprise oil storage assembly for storing tobacco tar, be plugged in described oil storage assembly for atomizing cigarette oil atomization core and be movably connected in the component suction nozzle of described oil storage assembly one end; Described atomization core comprises atomization seat, breather pipe, fuel-flow control pipe, elastic component, tobacco tar adsorption piece and the heating wire for being atomized the tobacco tar on described tobacco tar adsorption piece, described breather pipe to be set on described atomization seat and to surround the shoe cream room for storing tobacco tar with described oil storage assembly, and described breather pipe is provided with the oil guiding hole for the tobacco tar in described shoe cream room being imported described atomization in-core.Implement the beneficial effects of the utility model: by applying external force to component suction nozzle, fuel-flow control pipe moving axially along breather pipe can be promoted, thus control the size that fuel-flow control pipe hides oil guiding hole area, regulate the oil inlet quantity of atomization core.

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 oil storage cover, the two ends of oil storage cover are connected to atomization core and suction nozzle, and user adds tobacco tar from oil storage cover near one end of suction nozzle, when adding tobacco tar and being too fast, tobacco tar very easily flow in breather pipe from oil guiding hole, and then flow into atomization core inner, cause user to suck tobacco tar, finally affect the experience effect 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 oil storage assembly for storing tobacco tar, be plugged in described oil storage assembly for atomizing cigarette oil atomization core and be movably connected in the component suction nozzle of described oil storage assembly one end;

Described atomization core comprises atomization seat, breather pipe, fuel-flow control pipe, elastic component, tobacco tar adsorption piece and the heating wire for being atomized the tobacco tar on described tobacco tar adsorption piece, described breather pipe to be set on described atomization seat and to surround the shoe cream room for storing tobacco tar with described oil storage assembly, described breather pipe is provided with the oil guiding hole for the tobacco tar in described shoe cream room being imported described atomization in-core, described fuel-flow control pipe to be movably set in described breather pipe and to abut with described component suction nozzle elasticity, described elastic component is for providing the elastic force towards described component suction nozzle direction to described fuel-flow control pipe, described tobacco tar adsorption piece to be placed in space that described fuel-flow control pipe and described atomization seat surround and for adsorbing the tobacco tar imported from described oil guiding hole, described heating wire is for being atomized the tobacco tar on described tobacco tar adsorption piece, when described component suction nozzle promotes described fuel-flow control pipe under external force along the axially-movable of described breather pipe, described fuel-flow control pipe is by hiding the size of described oil guiding hole area to regulate the oil inlet quantity being atomized core.

In atomizing component described in the utility model, described oil storage assembly comprises oil storage cover, and be connected to the connector that one end is overlapped in described oil storage, described connector is provided with at least one towards an end face of described component suction nozzle and is connected with described shoe cream room and tank filler sleeve for adding tobacco tar, and described component suction nozzle is dismountable to be connected on described connector.

In atomizing component described in the utility model, described component suction nozzle comprises dismountable suction nozzle being connected to described oil storage assembly one end, described fuel-flow control pipe is inserted with vent cap in one end of described component suction nozzle, described vent cap extends one end of described fuel-flow control pipe and described suction nozzle elasticity offsets, and promotes the axially-movable of described fuel-flow control pipe along described breather pipe under external force to make described suction nozzle.

In atomizing component described in the utility model, described elastic component is set in described fuel-flow control pipe outside one end of described suction nozzle, and the two ends of described elastic component abut respectively to described vent cap and described connector.

In atomizing component described in the utility model, described elastic component is positioned at one end that described fuel-flow control pipe deviates from described suction nozzle, and the two ends of described elastic component abut respectively to described atomization core and described fuel-flow control pipe.

In atomizing component described in the utility model, the diapire of described suction nozzle is provided with venthole, and the periphery of described venthole is towards the side projection annular flange flange near described atomization core, and described annular flange flange abuts to described vent cap.

In atomizing component described in the utility model, described suction nozzle internal fixtion has the first seal be set in outside described annular flange flange and described vent cap.

In atomizing component described in the utility model, one end that described connector deviates from described component suction nozzle is fixed with the second seal be connected with described breather pipe elastic packing, and described second seal is provided with the perforation for shoe cream room described in conducting and described tank filler sleeve.

In atomizing component described in the utility model, described tobacco tar adsorption piece is the column of the hollow arranged along the longitudinal direction of described atomizing component, and the lateral wall of described tobacco tar adsorption piece abuts with the sidewall elastomer of described fuel-flow control pipe; Described heating wire winding becomes the column structure of hollow, and the madial wall of described heating wire and described tobacco tar adsorption piece fits.

The utility model also provides a kind of electronic cigarette, comprise interconnective battery component and atomizing component, described atomizing component comprise oil storage assembly for storing tobacco tar, be plugged in described oil storage assembly for atomizing cigarette oil atomization core and be movably connected in the component suction nozzle of described oil storage assembly one end;

Described atomization core comprises atomization seat, breather pipe, fuel-flow control pipe, elastic component, tobacco tar adsorption piece and the heating wire for being atomized the tobacco tar on described tobacco tar adsorption piece, described breather pipe to be set on described atomization seat and to surround the shoe cream room for storing tobacco tar with described oil storage assembly, described breather pipe is provided with the oil guiding hole for the tobacco tar in described shoe cream room being imported described atomization in-core, described fuel-flow control pipe box to be located in described breather pipe and to abut with described component suction nozzle elasticity, described elastic component is for providing the elastic force towards described component suction nozzle direction to described fuel-flow control pipe, described tobacco tar adsorption piece to be placed in space that described fuel-flow control pipe and described atomization seat surround and for adsorbing the tobacco tar imported from described oil guiding hole, described heating wire is for being atomized the tobacco tar on described tobacco tar adsorption piece, when described component suction nozzle promotes described fuel-flow control pipe under external force along the axially-movable of described breather pipe, described fuel-flow control pipe is by hiding the size of described oil guiding hole area to regulate the oil inlet quantity being atomized core.

In sum, implement atomizing component of the present utility model and electronic cigarette, there is following beneficial effect: first, by arranging fuel-flow control pipe between tobacco tar adsorption piece and breather pipe, when user adds tobacco tar, fuel-flow control pipe hides oil guiding hole completely, and during to avoid adding tobacco tar, tobacco tar flows in breather pipe from oil guiding hole.Secondly, because component suction nozzle is movably connected in one end of oil storage cover, can by applying external force to component suction nozzle, promote fuel-flow control pipe moving axially along breather pipe, thus control the size that fuel-flow control pipe hides oil guiding hole area, regulate the oil inlet quantity of atomization core, and the utility model overall structure is simply compact, tobacco tar sealing is better, avoids user and sucks the tobacco tar revealed from described oil guiding hole.Therefore, user according to the oil inlet quantity self needed by regulating atomization core, can regulate the size of amount of smoke, greatly improving user satisfaction.Finally, the madial wall of heating wire and tobacco tar adsorption piece fits, and the length of heating wire can be increased considerably, the contact area of heating wire and tobacco tar adsorption piece increases, thus more thickness mist can be formed, and heating wire is not easy to be squeezed, amount of smoke is more stable.

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 structural representation of the atomizing component that one of the utility model preferred embodiment provides;

Fig. 2 is the atomization core of atomizing component shown in Fig. 1 and the structural representation of oil storage assembly;

Fig. 3 is the structural representation of the atomization seat of the core of atomization shown in Fig. 2;

Fig. 4 is the structural representation of the component suction nozzle of atomizing component shown in Fig. 1;

Fig. 5 is the structural representation of the atomizing component that two of the utility model preferred embodiment provides;

Fig. 6 is the structural representation of the atomizing component that three of the utility model preferred embodiment provides.

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.

As depicted in figs. 1 and 2, a kind of atomizing component that one of the utility model preferred embodiment provides, this atomizing component is used for being combined to form electronic cigarette with battery component (not shown on figure), as shown in Figure 1, atomizing component comprise store tobacco tar oil storage assembly 2, be plugged in oil storage assembly 2 for atomizing cigarette oil atomization core 3 and be movably connected in the component suction nozzle 1 of oil storage assembly 2 one end.

Wherein, oil storage assembly 2 comprises oil storage cover 21, and being connected to the connector 23 that 21 one end are overlapped in oil storage, connector 23 is provided with at least one for adding the tank filler sleeve 231 of tobacco tar towards an end face of component suction nozzle 1, and component suction nozzle 1 is dismountable to be connected on connector 23.

Shown in composition graphs 2, atomization core 3 comprises atomization seat 31, breather pipe 34, fuel-flow control pipe 37, elastic component 38, tobacco tar adsorption piece 32 and the heating wire 33 for being atomized the tobacco tar on tobacco tar adsorption piece 32, breather pipe 34 is set in and is atomized on seat 31 and surrounds the shoe cream room 22 for storing tobacco tar with oil storage assembly 2, and breather pipe 34 is provided with the oil guiding hole 341 for being imported by the tobacco tar in shoe cream room 22 in atomization core 3.

Further, fuel-flow control pipe 37 to be movably set in breather pipe 34 and to abut with component suction nozzle 1 elasticity, and elastic component 38 is for providing the elastic force towards component suction nozzle 1 direction to oil mass control valve 37.Tobacco tar adsorption piece 32 is placed in space that fuel-flow control pipe 37 and atomization seat 31 surround and for adsorbing the tobacco tar imported from oil guiding hole 341, heating wire 33 is for being atomized the tobacco tar on tobacco tar adsorption piece 32.When component suction nozzle 1 promotes fuel-flow control pipe 37 under external force along the axially-movable of breather pipe 34, fuel-flow control pipe 37 is by hiding the size of oil guiding hole 341 area to regulate the oil inlet quantity being atomized core 3.

The present embodiment by arranging fuel-flow control pipe 37 between tobacco tar adsorption piece 32 and breather pipe 34, and when user adds tobacco tar, fuel-flow control pipe 37 hides oil guiding hole 341 completely, and during to avoid adding tobacco tar, tobacco tar flows in breather pipe 34 from oil guiding hole 341.

In addition, because component suction nozzle 1 is movably connected in one end of oil storage cover 21, can by applying external force to component suction nozzle 1, promote fuel-flow control pipe 37 moving axially along breather pipe 34, thus control the size that fuel-flow control pipe 37 hides oil guiding hole 341 area, regulate the oil inlet quantity of atomization core 3.Therefore, user according to the oil inlet quantity self needed by regulating atomization core 3, can regulate the size of amount of smoke, greatly improving user satisfaction.

The concrete structure of embodiment shown in composition graphs 1, Fig. 2 and Fig. 3 to atomization core 3 is described in detail.

As shown in Figure 2, be atomized core 3 and comprise atomization seat 31, tobacco tar adsorption piece 32, heating wire 33, breather pipe 34, atomizing electrode assembly 35, atomization lid 36, fuel-flow control pipe 37, elastic component 38 and vent cap 39.

Wherein, one end of atomization seat 31 is plugged in oil storage cover 21 and deviates from one end of component suction nozzle 1, and breather pipe 34 is set in atomization seat 31 towards outside one end of component suction nozzle 1, and atomizing electrode assembly 35 is fixed on one end that atomization seat 31 extends oil storage cover 21.Tobacco tar adsorption piece 32 is placed in the space that fuel-flow control pipe 37 and atomization seat 31 surround, and atomization lid 36 is set in atomization seat 31 towards one end of component suction nozzle 1 and supports on tobacco tar adsorption piece 32, and heating wire 33 is wrapped on tobacco tar adsorption piece 32.One end of fuel-flow control pipe 37 is mobilizable to be embedded between tobacco tar adsorption piece 32 and breather pipe 34, and the other end extends in component suction nozzle 1, is inserted with the vent cap 39 abutted with component suction nozzle 1 elasticity in one end that fuel-flow control pipe 37 extends to component suction nozzle 1.

Shown in composition graphs 3, atomization seat 31 is roughly the column structure of hollow, and its one end to be plugged in oil storage cover 21 and to overlap 21 with oil storage and to be dismountablely connected, and the other end extends oil storage cover 21 and is connected with battery component is dismountable.In the present embodiment, atomization seat 31 is threaded connection that structure is dismountable to be connected between overlap 21 with oil storage, and being atomized seat 31 and battery component is also be threaded connection that structure is dismountable to be connected.Be understandable that, in other embodiments, atomization seat 31 and oil storage are overlapped between 21 or battery component and also can be taked other Detachable connection structure, namely be atomized on seat 31 and other Detachable connection structure can also be set, such as buckle has flexible engaging shell fragment etc. in connecting, only be described to be threaded to example in the present embodiment, be not limited to be threaded.

Preferably, atomization seat 31 is provided with two mounting grooves 312 towards one end of component suction nozzle 1, two mounting grooves 312 respectively relative spacing be opened in atomization seat 31 one end towards component suction nozzle 1, and extend towards the side away from component suction nozzle 1, the two ends of tobacco tar adsorption piece 32 are erected at the bottom of this mounting groove 312 respectively.

Preferably, atomization seat 31 extends on lateral wall that oil storage overlaps 21 one end and offers at least one air admission hole 311 be connected with the atomization chamber 30 in atomization seat 31, and this air admission hole 311 is mainly in order to the tobacco tar in air inlet and eliminating atomization chamber.

Preferably, because atomization lid 36 is set in outside atomization seat 31, and support on tobacco tar adsorption piece 32, and in order to avoid atomization lid 36 excessive compression tobacco tar adsorption piece 32, can projection offsets with the end face of atomization lid 36 on the lateral wall of atomization seat 31 stopper protrusion 313.As shown in Figure 2, atomization lid 36 is roughly cylinder-like structure, and its center is provided with for the passage 361 of conducting breather pipe 34 with the atomization chamber 30 in atomization seat 31.

Preferably, in order to avoid atomization seat 31 is in the process of assembling, the air admission hole 311 on atomization seat 31, by oil storage cover 21 blocking, can arrange spacing chuck 314 on the lateral wall of atomization seat 31.Concrete, atomization core 3 is in the process of assembling, and this spacing chuck 314 abuts the port lateral margin to oil storage cover 21, because air admission hole 311 is positioned in spacing chuck 314, thus air admission hole 311 can be avoided blocked in the process of assembling.

Preferably, when atomization core 3 takes out or loads by needs, conveniently user's rotary-atomizing seat 31, can arrange anti-skidding knurling structure (on figure non-label) on atomization seat 31.

As shown in Figure 2, tobacco tar adsorption piece 32 is made up of oil absorption material, and it is fixed on the bottom of mounting groove 312, and tobacco tar adsorption piece 32 is mainly used in adsorbing the tobacco tar in shoe cream room 22.Heating wire 33 is wrapped on this tobacco tar adsorption piece 32, and is electrically connected with battery component, and heating wire 33 is mainly used in being atomized the tobacco tar on tobacco tar adsorption piece 32.

As shown in Figure 2, breather pipe 34 is set in outside atomization seat 31, and is connected with the atomization chamber 30 in atomization seat 31.Breather pipe 34 is provided with at least one oil guiding hole 341, and the tobacco tar in shoe cream room 22 infiltrates in tobacco tar adsorption piece 32 through after this oil guiding hole 341.

As shown in Figure 2, fuel-flow control pipe 37 is mobilizable to be plugged between breather pipe 34 and atomization seat 31, and one end that fuel-flow control pipe 37 deviates from component suction nozzle 1 is provided with at least one oil-through hole 371, the tobacco tar in shoe cream room 22 infiltrates in tobacco tar adsorption piece 32 through after the oil guiding hole 341 on breather pipe 34 and this oil-through hole 341 successively.

In the process used, by applying external force to component suction nozzle 1, promote fuel-flow control pipe 37 moving axially along breather pipe 34, thus control the size that fuel-flow control pipe 37 hides oil guiding hole 341 area, regulate the oil inlet quantity of atomization core 3.When the oil guiding hole 341 of the oil-through hole 371 on fuel-flow control pipe 37 completely and on breather pipe 34 is conducted, the oil inlet quantity of atomization core 3 is maximum; When fuel-flow control pipe 37 hides oil guiding hole 341 completely, infiltrate tobacco tar adsorption piece 32 with the tobacco tar intercepted in shoe cream room 22.

As shown in Figure 2, breather pipe 39 is in T font, and it is hollow structure, and one end of breather pipe 39 is plugged in fuel-flow control pipe 37 towards in one end of component suction nozzle 1, and the other end elasticity of vent cap 39 abuts in component suction nozzle 1.

Further, elastic component 38 is spring structure, it is set in fuel-flow control pipe 37 outside one end of component suction nozzle 1, and the two ends of elastic component 38 abut respectively to vent cap 39 and connector 23, and for providing the elastic force towards component suction nozzle 1 direction to oil mass control valve 37.Be understandable that, described elastic component can be also shell fragment or silica gel sleeve pipe etc., as long as it can provide elastic force.

When applying the external force towards atomization core 3 direction to component suction nozzle 1, component suction nozzle 1 applies active force by vent cap 39 pairs of fuel-flow control pipes 37, make fuel-flow control pipe 37 axially moving towards the direction of atomization core 3 along breather pipe 34, thus control the size that fuel-flow control pipe 37 hides oil guiding hole 341 area.When taking off component suction nozzle 1, vent cap 39 moves towards the side deviating from atomization core 3 under the effect of elastic component 38 elastic force, now fuel-flow control pipe 37 will hide oil guiding hole 341 completely, infiltrate in tobacco tar adsorption piece 32 with the tobacco tar intercepted in shoe cream room 22, therefore user takes off component suction nozzle 1 when adding tobacco tar, avoids tobacco tar to flow in breather pipe 34 from oil guiding hole 341.

As shown in Figure 2, atomizing electrode assembly 35 is fixed on atomization seat 31 near one end of battery component, and atomizing electrode assembly 35 comprises interior electrode 351, insulating part 352 and external electrode.In the present embodiment, dispatch from foreign news agency is very atomized seat 31, and interior electrode 351 and insulating part 352 are embedded in atomization seat 31 from inside to outside successively.One end of heating wire 33 realizes the electrical connection with battery component by atomization seat 31, and the other end of heating wire 33, by interior electrode 351, realizes the electrical connection with battery component.

Be understandable that, in other embodiments, described atomizing electrode assembly 35 can be set up in parallel and mutually isolated two electrodes, and the two ends of described heating wire 33 are electrically connected with described two electrodes be set up in parallel respectively.Therefore, its structure does not do concrete restriction, as long as can electric energy transmitting.

In the present embodiment, atomization core 3 mainly comprises atomization seat 31, tobacco tar adsorption piece 32, heating wire 33, breather pipe 34, atomizing electrode assembly 35, atomization lid 36, fuel-flow control pipe 37, elastic component 38 and vent cap 39.Be understandable that, the atomization core 3 of the application is not limited to said structure, can also be other structure, as long as it can be atomized tobacco tar.

The concrete structure of embodiment shown in composition graphs 1 and Fig. 4 to component suction nozzle 1 and oil storage assembly 2 is described in detail.

As shown in Figure 1, oil storage assembly 2 mainly comprises oil storage cover 21, shoe cream room 22, connector 23, connecting ring 24 and the second seal 25.

Wherein, oil storage cover 21 is roughly cylinder-like structure, connector 23 and connecting ring 24 are connected to the two ends of oil storage cover 21, shoe cream room 22 for storing tobacco tar is surrounded by between oil storage cover 21 and atomization core 3, conveniently user checks the surplus of tobacco tar in shoe cream room 22, and oil storage cover 21 is obtained by the material of light-permeable.

Connector 23 is mainly used in connecting oil storage cover 21 and component suction nozzle 1, and it is plugged in oil storage cover 21 outside one end of component suction nozzle 1, and one end that connector 23 extends outside oil storage cover 21 is connected with component suction nozzle 1 is dismountable.

Preferably, reveal in order to avoid the tobacco tar in shoe cream room 22 from one end of connector 23, connector 23 is closed end towards the end face of component suction nozzle 1, and breather pipe 34 extends in this connector 23, and is connected with this connector 23 grafting.

Preferably, conveniently user adds tobacco tar, and this closed end is provided with the tank filler sleeve 231 that at least one and shoe cream room 22 are conducted.

Preferably, the junction in order to avoid tobacco tar from breather pipe 34 with connector 23 is leaked, and the second seal 25 is fixed in one end that connector 23 deviates from component suction nozzle 1, and this second seal 25 is connected with breather pipe 34 elastic packing.

Connecting ring 24 is plugged in oil storage cover 21 outside one end of battery component, and core 3 is dismountable is connected on this connecting ring 24 in atomization.In the present embodiment, atomization core 3 adopts the mode be threaded to be fixed on connecting ring 24, concrete, and the lateral wall of the atomization seat 31 of atomization core 3 is provided with external thread structure, and the madial wall of connecting ring 24 is provided with the female thread structure suitable with this external thread structure.Be understandable that, in other embodiments, other Detachable connection structure can also be adopted between connecting ring 24 and atomization seat 31, then connecting ring 24 also can arrange other syndeton, such as buckle has flexible engaging shell fragment etc. in connecting, only be described to be threaded to example in the present embodiment, be not limited to be threaded.

As shown in Figure 4, component suction nozzle 1 comprises suction nozzle 11 and the first seal 12, and the dismountable connector 23 that is connected to of suction nozzle 11 extends outside one end of oil storage cover 21.

Concrete, the diapire of suction nozzle 11 is provided with venthole 13, and the periphery of venthole 13 circularizes flange 14 towards the side projection near atomization core 3, and this annular flange flange 14 abuts against with vent cap 39.

Preferably, in order to avoid tobacco tar leaks from the gap between annular flange flange 14 and vent cap 39, can at suction nozzle 11 internal fixtion first seal 12, this first seal 12 is set in annular flange flange 14 with outside vent cap 39.In the present embodiment, annular flange flange 14 has identical external diameter with vent cap 39.

Preferably, leak in order to avoid tobacco tar from tank filler sleeve 231, the first seal 12 is located on this tank filler sleeve 231 towards one end seal cover of atomization core 3.

Fig. 5 shows a kind of atomizing component that two of the utility model preferred embodiment provides, and itself and the difference of one of embodiment are that the fixed form of elastic component 38 is different.

As shown in Figure 5, elastic component 38 is positioned at one end that fuel-flow control pipe 37 deviates from suction nozzle 11, and the two ends of elastic component 38 abut atomization lid 39 and fuel-flow control pipe 37 to being atomized core 3 respectively.When taking off suction nozzle 11, fuel-flow control pipe 37 moves towards the side deviating from atomization core 3 under the effect of elastic component 38 elastic force, now fuel-flow control pipe 37 will hide oil guiding hole 341 completely, infiltrate in tobacco tar adsorption piece 32 with the tobacco tar intercepted in shoe cream room 22, therefore user takes off suction nozzle 11 when adding tobacco tar, avoids tobacco tar to flow in breather pipe 34 from oil guiding hole 341.

Fig. 6 shows a kind of atomizing component that three of the utility model preferred embodiment provides, and itself and the difference of one of embodiment are that tobacco tar adsorption piece 32 is different with heating wire 33 connected mode.

As shown in Figure 6, be atomized core 3 and comprise atomization seat 31, tobacco tar adsorption piece 32, heating wire 33, breather pipe 34, atomizing electrode assembly 35, fuel-flow control pipe 37, elastic component 38 and vent cap 39.

Wherein, one end of atomization seat 31 is plugged in oil storage cover 21 and deviates from one end of component suction nozzle 1, and breather pipe 34 is set in atomization seat 31 towards outside one end of component suction nozzle 1, and atomizing electrode assembly 35 is fixed on one end that atomization seat 31 extends oil storage cover 21.

Tobacco tar adsorption piece 32 is placed in the space that fuel-flow control pipe 37 and atomization seat 31 surround, and this tobacco tar adsorption piece 32 is the column structure of the hollow arranged along the longitudinal direction of atomizing component.One end of fuel-flow control pipe 37 is mobilizable to be plugged between tobacco tar adsorption piece 32 and breather pipe 34, and the other end extends in component suction nozzle 1, is inserted with the vent cap 39 abutted with component suction nozzle 1 elasticity in one end that fuel-flow control pipe 37 extends to component suction nozzle 1.

Concrete, the lateral wall of tobacco tar adsorption piece 32 abuts with the sidewall elastomer of fuel-flow control pipe 37, and heating wire 33 is wound in the column structure of hollow, and madial wall and the heating wire 33 of tobacco tar adsorption piece 32 fit.The two ends of heating wire 33 realize the electrical connection with battery component respectively by atomizing electrode assembly 35.

The present embodiment heating wire 33 fits with the madial wall of tobacco tar adsorption piece 32, the length of heating wire 33 can be increased considerably, and heating wire 33 increases with the contact area of tobacco tar adsorption piece 32, thus can form more thickness mist, and heating wire 33 is not easy to be squeezed, amount of smoke is more stable.In addition, because the lateral wall of tobacco tar adsorption piece 32 abuts with the madial wall elasticity of fuel-flow control pipe 37, the tobacco tar in shoe cream room 22 thus better can be stoped to leak in breather pipe 34, make tobacco tar good airproof performance.

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

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

(1) by arranging fuel-flow control pipe between tobacco tar adsorption piece and breather pipe, when user adds tobacco tar, fuel-flow control pipe hides oil guiding hole completely, and during to avoid adding tobacco tar, tobacco tar flows in breather pipe from oil guiding hole.

(2) because component suction nozzle is movably connected in one end of oil storage cover, can by applying external force to component suction nozzle, promote fuel-flow control pipe moving axially along breather pipe, thus control the size that fuel-flow control pipe hides oil guiding hole area, regulate the oil inlet quantity of atomization core, and the utility model overall structure is simply compact, tobacco tar sealing is better, avoids user and sucks the tobacco tar revealed from described oil guiding hole.Therefore, user according to the oil inlet quantity self needed by regulating atomization core, can regulate the size of amount of smoke, greatly improving user satisfaction.

(3) madial wall of heating wire and tobacco tar adsorption piece fits, the length of heating wire can be increased considerably, and the contact area of heating wire and tobacco tar adsorption piece increases, thus can form more thickness mist, and heating wire is not easy to be squeezed, amount of smoke is more stable.

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.In addition, for particular condition or material, various amendment can be made to the utility model, and 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, it is characterized in that: described atomizing component comprises oil storage assembly (2) for storing tobacco tar, be plugged in described oil storage assembly (2) for atomizing cigarette oil atomization core (3) and be movably connected in the component suction nozzle (1) of described oil storage assembly (2) one end;

Described atomization core (3) comprises atomization seat (31), breather pipe (34), fuel-flow control pipe (37), elastic component (38), tobacco tar adsorption piece (32) and the heating wire (33) for being atomized the tobacco tar on described tobacco tar adsorption piece (32), described breather pipe (34) is set in described atomization seat (31) and goes up and surround the shoe cream room (22) for storing tobacco tar with described oil storage assembly (2), described breather pipe (34) is provided with the oil guiding hole (341) for being imported by the tobacco tar in described shoe cream room (22) in described atomization core (3), described fuel-flow control pipe (37) to be movably set in described breather pipe (34) and to abut with described component suction nozzle (1) elasticity, described elastic component (38) is for providing the elastic force towards described component suction nozzle (1) direction to described fuel-flow control pipe (37), described tobacco tar adsorption piece (32) to be placed in space that described fuel-flow control pipe (37) and described atomization seat (31) surround and for adsorbing the tobacco tar imported from described oil guiding hole (341), described heating wire (33) is for being atomized the tobacco tar on described tobacco tar adsorption piece (32), when described component suction nozzle (1) promotes described fuel-flow control pipe (37) under external force along the axially-movable of described breather pipe (34), described fuel-flow control pipe (37) is by hiding the size of described oil guiding hole (341) area to regulate the oil inlet quantity being atomized core (3).

2. atomizing component according to claim 1, it is characterized in that, described oil storage assembly (2) comprises oil storage cover (21), and be connected to the connector (23) of described oil storage cover (21) one end, described connector (23) is provided with at least one towards an end face of described component suction nozzle (1) and is connected with described shoe cream room (22) and tank filler sleeve (231) for adding tobacco tar, and described component suction nozzle (1) is dismountable to be connected on described connector (23).

3. atomizing component according to claim 2, it is characterized in that, described component suction nozzle (1) comprises dismountable suction nozzle (11) being connected to described oil storage assembly (2) one end, described fuel-flow control pipe (37) is inserted with vent cap (39) in one end of described component suction nozzle (1), described vent cap (39) extends one end of described fuel-flow control pipe (37) and described suction nozzle (11) elasticity offsets, the axially-movable of described fuel-flow control pipe (37) along described breather pipe (34) is promoted under external force to make described suction nozzle (11).

4. atomizing component according to claim 3, it is characterized in that, described elastic component (38) is set in described fuel-flow control pipe (37) outside one end of described suction nozzle (11), and the two ends of described elastic component (38) abut respectively to described vent cap (39) and described connector (23).

5. atomizing component according to claim 3, it is characterized in that, described elastic component (38) is positioned at one end that described fuel-flow control pipe (37) deviates from described suction nozzle (11), and the two ends of described elastic component (38) abut respectively to described atomization core (3) and described fuel-flow control pipe (37).

6. atomizing component according to claim 3, it is characterized in that, the diapire of described suction nozzle (11) is provided with venthole (13), the periphery of described venthole (13) is towards the side projection annular flange flange (14) near described atomization core (3), and described annular flange flange (14) abuts to described vent cap (39).

7. atomizing component according to claim 6, is characterized in that, described suction nozzle (11) internal fixtion has and is set in described annular flange flange (14) and described vent cap (39) the first seal (12) outward.

8. atomizing component according to claim 2, it is characterized in that, one end that described connector (23) deviates from described component suction nozzle (1) is fixed with the second seal (25) be connected with described breather pipe (34) elastic packing, and described second seal (25) is provided with for the perforation (251) of shoe cream room described in conducting (22) with described tank filler sleeve (231).

9. atomizing component according to claim 1, it is characterized in that, described tobacco tar adsorption piece (32) is the column of the hollow arranged along the longitudinal direction of described atomizing component, and the lateral wall of described tobacco tar adsorption piece (32) abuts with the sidewall elastomer of described fuel-flow control pipe (37); Described heating wire (33) is wound in the column structure of hollow, and described heating wire (33) fits with the madial wall of described tobacco tar adsorption piece (32).

10. an electronic cigarette, comprise interconnective battery component and atomizing component, it is characterized in that, described atomizing component comprises oil storage assembly (2) for storing tobacco tar, be plugged in described oil storage assembly (2) for atomizing cigarette oil atomization core (3) and be movably connected in the component suction nozzle (1) of described oil storage assembly (2) one end;

Described atomization core (3) comprises atomization seat (31), breather pipe (34), fuel-flow control pipe (37), elastic component (38), tobacco tar adsorption piece (32) and the heating wire (33) for being atomized the tobacco tar on described tobacco tar adsorption piece (32), described breather pipe (34) is set in described atomization seat (31) and goes up and surround the shoe cream room (22) for storing tobacco tar with described oil storage assembly (2), described breather pipe (34) is provided with the oil guiding hole (341) for being imported by the tobacco tar in described shoe cream room (22) in described atomization core (3), described fuel-flow control pipe (37) to be set in described breather pipe (34) and to abut with described component suction nozzle (1) elasticity, described elastic component (38) is for providing the elastic force towards described component suction nozzle (1) direction to described fuel-flow control pipe (37), described tobacco tar adsorption piece (32) to be placed in space that described fuel-flow control pipe (37) and described atomization seat (31) surround and for adsorbing the tobacco tar imported from described oil guiding hole (341), described heating wire (33) is for being atomized the tobacco tar on described tobacco tar adsorption piece (32), when described component suction nozzle (1) promotes described fuel-flow control pipe (37) under external force along the axially-movable of described breather pipe (34), described fuel-flow control pipe (37) is by hiding the size of described oil guiding hole (341) area to regulate the oil inlet quantity being atomized core (3).