Utility model content
The technical problems to be solved in the utility model is, for the above-mentioned defect of the electronic smoke atomizer in the electronic cigarette of prior art, provide that a kind of to produce amount of smoke large, can regulate amount of smoke and can change electronic smoke atomizer and the electronic cigarette of the atomizing component of damage.
The utility model solves the technical scheme that its technical problem adopts: construct a kind of electronic smoke atomizer, comprise the atomizing component with heating wire, be provided with the smoke path for smog is discharged in described atomizing component; Described atomizing component is multiple, and multiple described atomizing components coaxially arrange; The smoke path of adjacent described atomizing component is interconnected; Heating wire in multiple described atomizing components is electrically connected successively, and described heating wire is partly or entirely placed in described smoke path; Between adjacent described atomizing component, be provided with the structure that removably connects, described in the structure that removably connects make can removably connect between described atomizing component.
In electronic smoke atomizer described in the utility model, each described atomizing component also comprises atomization sleeve pipe, is arranged on first electrode structure of described atomization sleeve pipe one end, and is arranged on the second electrode structure of the described atomization sleeve pipe other end;
Wherein, described the first electrode structure comprises the first external electrode being arranged on described atomization sleeve pipe, and is arranged on the first interior electrode of described the first external electrode inside; Described the second electrode structure comprises the second external electrode being arranged on described atomization sleeve pipe, and is arranged on the second inner electrode of described the second external electrode inside; Described the first external electrode is electrically connected with one end of described heating wire respectively with described the second external electrode; Described the first interior electrode is electrically connected with the other end of described heating wire respectively with described the second inner electrode;
When two described atomizing components connect, the described the first external electrode described in one of them in atomizing component is electrically connected with described the second inner electrode with the described the second external electrode in atomizing component described in another with described the first interior electrode is corresponding respectively.
In electronic smoke atomizer described in the utility model, described in the structure that removably connects comprise the external screw thread being arranged on described the first external electrode, and be arranged on described the second external electrode and with described external screw thread and screw the internal thread being connected.
In electronic smoke atomizer described in the utility model, described in the structure that removably connects comprise the magnetic coupling being arranged between described the first external electrode and described the second external electrode; Described the first external electrode is connected by described magnetic coupling with described the second external electrode.
In electronic smoke atomizer described in the utility model, described in the structure that removably connects comprise the buckle radially extending along the lateral wall of described the first external electrode, and be arranged on guide channel and stopper slot on described the second external electrode madial wall; Described guide channel axially arranges along described the second external electrode madial wall; Described stopper slot circumferentially arranges and is connected with described guide channel along described the second external electrode madial wall;
When two described atomizing components of assembling, described buckle aimed to described guide channel and is inserted into described stopper slot, rotating one of them atomizing component described buckle is held in described stopper slot.
In electronic smoke atomizer described in the utility model, described electronic smoke atomizer also comprises the suction nozzle being removably mounted on a described atomizing component that is positioned at end.
In electronic smoke atomizer described in the utility model, each described atomizing component also comprises the oil storage sleeve pipe that is sleeved on described atomization jacket exterior, sealing is arranged on first end cap of the one end between described oil storage sleeve pipe and described atomization sleeve pipe, and seals the second end cap being arranged between described oil storage sleeve pipe and described atomization sleeve pipe away from one end of described the first end cap; Each described atomizing component also comprises the oil storage part being arranged in described atomization sleeve pipe; On described atomization sleeve pipe, offer the fuel feed hole relative with described oil storage part position; Between described oil storage sleeve pipe, described atomization sleeve pipe, described the first end cap and described the second end cap, be formed with the oil storage space that stores tobacco tar.
In electronic smoke atomizer described in the utility model, described the first end cap offers tank filler sleeve; Each described atomizing component also comprises that sealing is arranged on the black box on described tank filler sleeve.
In electronic smoke atomizer described in the utility model, described electronic smoke atomizer also comprises the suction nozzle being removably mounted on a described atomizing component that is positioned at end.
In electronic smoke atomizer described in the utility model, described electronic smoke atomizer also comprises that the outer tube, the sealing that are sleeved on multiple described atomizing components outside are arranged on the 3rd end cap between described atomizing component and the outer tube of one end, and sealing is arranged on the suction nozzle between described atomizing component and the outer tube of the other end; Each described atomizing component also comprises the oil storage part being arranged in described atomization sleeve pipe; On described atomization sleeve pipe, offer the fuel feed hole relative with described oil storage part position; Between described outer tube, multiple described atomizing component, described the 3rd end cap and described suction nozzle, be formed with the oil storage space that stores tobacco tar.
The utility model has also been constructed a kind of electronic cigarette, comprises the atomizing component described in as above technical scheme, and the battery component being connected with described atomizing component.
Implement electronic smoke atomizer of the present utility model and electronic cigarette, there is following beneficial effect:
A, described electronic smoke atomizer adopt the atomizing component of multiple and coaxial setting, and the smoke path of adjacent described atomizing component is interconnected, and described heating wire is partly or entirely placed in to the structure in described smoke path, the amount of smoke producing while making described electronic smoke atomizer work is large.When smoking, multiple smog is all sent into smoker's oral cavity by the described smoke path being interconnected, when the smog that contains tobacco tar particle in atomizing component away from suction nozzle is flowed through from described suction nozzle the atomizing component close to, the heating wire of the atomizing component from suction nozzle close to carries out heating atomization to described tobacco tar particle again, thereby overall amount of smoke is further improved.And, prevent well tobacco tar condensation and further prevented that user from sucking tobacco tar, improve user's experience.
The atomizing component structure of b, coaxial setting is compacter, there is no extra air memory space, smog when smoking after atomization is directly sent into smoker oral cavity by the described smoke path being interconnected, thereby be not subject to Dilution air and make the concentration of smog higher, just obtain larger amount of smoke and higher smokescope by less smoking dynamics, improved user's experience.
Between c, multiple described atomizing component, adopt the structure removably connecting, while assembling multiple described atomizing component, it is easy and simple to handle, and each atomizing component all can be replaced use independently, make user to select the atomizing component of varying number according to the demand of oneself, to reach the effect that regulates amount of smoke.In addition, in the time that damaging, certain atomizing component is easy to detect and be convenient for changing, and easy to use.
D, smoker can be realized and be regulated voluntarily required tobacco tar taste by the atomizing component combination of different tobacco tar tastes, thereby can meet user's individual demand, and regulate simple and conveniently, have further improved user's experience.
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 perspective view of the electronic smoke atomizer that provides of one of the utility model preferred embodiment;
Fig. 2 is the explosive view of the electronic smoke atomizer shown in Fig. 1;
Fig. 3 is the cut-away view of the electronic smoke atomizer shown in Fig. 1;
Fig. 4 is the A portion enlarged drawing in Fig. 3;
Fig. 5 is the circuit theory diagrams of the heating wire in the electronic smoke atomizer shown in Fig. 1 while being connected in parallel;
Fig. 6 is the explosive view of the atomizing component in the electronic smoke atomizer that provides of two of the utility model preferred embodiment;
Fig. 7 is the cut-away view of the atomizing component in the electronic smoke atomizer shown in Fig. 6;
Fig. 8 is the B portion enlarged drawing in Fig. 7;
Fig. 9 is the explosive view of the atomizing component in the electronic smoke atomizer that provides of three of the utility model preferred embodiment;
Figure 10 is the cut-away view of the atomizing component in the electronic smoke atomizer shown in Fig. 9;
Figure 11 is the C portion enlarged drawing in Fig. 9;
Figure 12 is the perspective view of the electronic smoke atomizer that provides of four of the utility model preferred embodiment;
Figure 13 is the explosive view of the electronic smoke atomizer shown in Figure 12;
Figure 14 is the three-dimensional structure diagram of the atomizing component in the electronic smoke atomizer in Figure 12;
Figure 15 is the cut-away view of the electronic smoke atomizer shown in Figure 12;
Figure 16 is the explosive view of the atomizing component in the electronic smoke atomizer in Figure 12;
Figure 17 is the perspective view of the electronic smoke atomizer that provides of five of the utility model preferred embodiment;
Figure 18 is the cut-away view of the electronic smoke atomizer shown in Figure 17;
Figure 19 is the perspective view of the electronic cigarette that provides of the utility model preferred embodiment.
The specific embodiment
Understand for technical characterictic of the present utility model, object and effect being had more clearly, now contrast accompanying drawing and describe the specific embodiment of the present utility model in detail.
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, one of preferred embodiment of the present utility model provides a kind of electronic smoke atomizer, it comprises atomizing component 1 and suction nozzle 2.Wherein, atomizing component 1 comprises heating wire 12, and is the Oil Guide ropes 101 of described heating wire 12 Oil Guides for these heating wire 12 atomizations.This heating wire 12 is placed in the smoke path 100 in described atomizing component 1, and this heating wire 12 makes described electronic smoke atomizer produce the smog that blows food for user while work, and described smog is discharged by described smoke path 100.This atomizing component 1 is multiple, and multiple atomizing components 1 coaxially arrange.In the present embodiment, be multiplely two or more.The smoke path 100 of adjacent described atomizing component 1 is interconnected, and the structure of each atomizing component 1 is all identical, and heating wire 12 in multiple described atomizing component 1 is electrically connected successively.Between adjacent atomizing component 1, be provided with the structure that removably connects, this structure that removably connects removably connects multiple described atomizing components 1 successively.Suction nozzle 2 is removably mounted on one end of a described atomizing component 1 that is positioned at one end, be positioned at one end of a described atomizing component 1 of the other end for connecting battery component, this battery component is for powering to multiple described atomizing components 1, thereby driving atomizing component 1 works to produce smog.When described electronic smoke atomizer work, multiple described atomizing components 1 are worked simultaneously, and the amount of smoke that described electronic smoke atomizer is produced is large.Moreover, the structure removably connecting due to employing, easy and simple to handle while assembling multiple described atomizing component 1, make each atomizing component 1 all can replace independently use, and then make user can select according to the demand of oneself atomizing component 1 of varying number, to reach the effect that regulates amount of smoke, and improve amount of smoke, smokescope and prevented from sucking tobacco tar; The 3rd, smoker can be combined and be regulated voluntarily required tobacco tar taste by the atomizing component of different tobacco tar tastes 1; Finally, certain atomizing component 1 is easy to detect and be convenient for changing while damage, thereby can meet user's individual demand, improves user and experiences.In the present embodiment, atomizing component 1 is provided with two.Heating wire 12 in two atomizing components 1 is connected in parallel successively, and each heating wire 12 is all wrapped on an Oil Guide rope 101, and its circuit theory schematic diagram refers to shown in Fig. 5.Because two heating wires 12 are connected in parallel successively, after one of them atomizing component 1 damages, do not need to remove the atomizing component 1 of this damage, described electronic smoke atomizer still can normally use.In other embodiment of the present utility model, the quantity of atomizing component 1 can also have other to select, for example three or four etc.In each atomizing component 1, the quantity of heating wire 12 can be multiple.In the time that multiple atomizing components 1 connect, the heating wire 12 in described multiple atomizing components 1 can also adopt the structure being connected in series successively.
Particularly, as shown in Figure 3 and 4, each atomizing component 1 comprises atomization sleeve pipe 11, heating wire 12, the first electrode structure 13, the second electrode structure 14 and oil storage part 15.Wherein, atomization sleeve pipe 11 is roughly the tubular structure of hollow.Heating wire 12 and oil storage part 15 are installed in the inside of atomization sleeve pipe 11.Oil storage part 15 is oil storage cotton structure, and it is for storing tobacco tar, and when heating wire 12 is worked, the tobacco tar that makes to be stored in oil storage part 15 is derived for described heating wire 12 atomizations to produce smog by described Oil Guide rope 101.The first electrode structure 13 is arranged on one end of atomization sleeve pipe 11, and the second electrode structure 14 is arranged on the other end of atomization sleeve pipe 11, and this other end is also one end away from the first electrode structure 13 on atomization sleeve pipe 11.
As shown in Figure 3 and 4, the first electrode structure 13 can be used for being electrically connected with battery component, or for being electrically connected with the second electrode structure 14 of another atomizing component 1.This first electrode structure 13 comprises the first external electrode 131, the first interior electrode 132 and the first insulating part 133.The first external electrode 131 is roughly the cylindrical-shaped structure of hollow, and it is arranged on atomization sleeve pipe 11 one end away from the second electrode structure 14.The first interior electrode 132 is roughly the cylindrical-shaped structure of hollow equally, and it is arranged on the inside of the first external electrode 131.The inside of this first interior electrode 132 offers the first passage 1321 for airflow, this first passage 1321 axially offering along the first interior electrode 132.The first insulating part 133 is roughly circulus, and it is arranged between the first external electrode 131 and the first interior electrode 132 to realize both being electrically insulated.
As shown in Figure 3 and 4, the second electrode structure 14 can be used for being connected with suction nozzle 2, or for being electrically connected with the first electrode structure 13 of another atomizing component 1.This second electrode structure 14 comprises the second external electrode 141, the second inner electrode 142 and the second insulating part 143.The second external electrode 141 is roughly the cylindrical-shaped structure of hollow, and it is arranged on atomization sleeve pipe 11 one end away from the first electrode structure 13.The second inner electrode 142 is roughly the cylindrical-shaped structure of hollow equally, and it is arranged on the inside of the second external electrode 141.The inside of this second inner electrode 142 offers the second passage 1421 for airflow, and this second passage 1421 is axially offered along the second inner electrode 142, and is connected with the first passage 1321 by described nebulization channel 100.In the present embodiment, the first passage 1321 is identical with the second passage 1421 apertures.The second insulating part 143 is roughly circulus, and it is arranged between the second external electrode 141 and the second inner electrode 142 to realize both being electrically insulated.In each atomizing component 1, the first external electrode 131 is electrically connected with one end of heating wire 12 respectively with the second external electrode 141, and the first interior electrode 132 is electrically connected with the other end of heating wire 12 respectively with the second inner electrode 142.In the present embodiment, the two ends of heating wire 12 all adopt wire to be electrically connected with the first electrode structure 13 and the second electrode structure 14 respectively, certainly, also can adopt the atomization sleeve pipe 11 of metal material to be electrically connected, in this no limit.In the time that two atomizing components 1 connect, the first external electrode 131 in one of them atomizing component 1 is electrically connected with the second inner electrode 142 with the second external electrode 141 in another atomizing component 1 with the first interior electrode 132 is corresponding respectively.In the present embodiment, the first external electrode 131 screws to realize to be electrically connected with the second external electrode 141 mutually, and the first interior electrode 132 supports to realize to be electrically connected with the second inner electrode 142 mutually.
As shown in Figure 3 and 4, in the present embodiment, the structure that removably connects being arranged between adjacent atomizing component 1 comprises the external screw thread being arranged on the first external electrode 131, and is arranged on the internal thread on the second external electrode 141.This external screw thread mutually screws and is connected with this internal thread, two adjacent atomizing components 1 is realized and removably connected, and make the first external electrode 131 in two adjacent atomizing components 1 realize and being electrically connected with the second external electrode 141.In other embodiment of the present utility model, the structure that removably connects comprises the internal thread being arranged on the first external electrode 131, and is arranged on the second external electrode 141 and with this internal thread and screws the external screw thread being connected.In this embodiment, the structure that removably connects adopts screw connection structure, and it is simple in structure, and dismounting is easy and simple to handle when atomizing component 1.Suction nozzle 2 is removably mounted on one end of a described atomizing component 1 that is positioned at end, and one end of this suction nozzle 2 is provided with the internal thread on the second external electrode 141 and mutually screws the external screw thread being connected, and while making suction nozzle 2 assembly and disassembly, operation is comparatively easy.
While assembling above-mentioned electronic smoke atomizer, first two atomizing components 1 can be installed, then suction nozzle 2 is arranged on one of them atomizing component 1.In the time that user need to use an atomizing component 1, only another atomizing component 1 need be removed.Due to the structure of two atomizing components 1 of described electronic smoke atomizer employing, compared with only having the electronic smoke atomizer of an atomizing component 1 in prior art, the amount of smoke that the described electronic smoke atomizer in the present embodiment produces while work is larger.Moreover, two atomizing components 1 adopt the structure removably connecting successively, when two atomizing components 1 of assembling, it is easy and simple to handle, and each atomizing component 1 all can be replaced use independently, make user can select according to the demand of oneself atomizing component 1 of varying number, to reach the effect that regulates amount of smoke, thereby can meet user's individual demand, improve user and experience.
As shown in Fig. 6, Fig. 7 and Fig. 8, two of preferred embodiment of the present utility model provides a kind of electronic smoke atomizer, and one of itself and embodiment institute's difference is to be arranged on the structure that removably connects between adjacent atomizing component 1.In the present embodiment, the structure that removably connects comprises the magnetic coupling 16 being arranged between the first external electrode 131 and the second external electrode 141, and the first external electrode 131 is connected by this magnetic coupling 16 with the second external electrode 141.Magnetic coupling 16 is roughly cylinder-like structure, and it adopts magnet, and this magnetic coupling 16 is fixedly set between the second external electrode 141 and the second insulating part 143.The first external electrode 131 adopts magnetic material to make, and it is connected with the mutual adhesive of magnetic coupling 16, to realize removably connecting of two adjacent atomizing components 1.In the present embodiment, adopt magnetic coupling 16 to realize removably connecting between adjacent atomizing component 1, it is simple in structure, and when dismounting atomizing component 1, operation is easier.
As shown in Fig. 9, Figure 10 and Figure 11, three of preferred embodiment of the present utility model provides a kind of electronic smoke atomizer, one of itself and embodiment same structure that removably connects that is to be arranged between adjacent atomizing component 1 of institute's difference.In the present embodiment, when two adjacent atomizing components 1 connect, the first external electrode 131 fits in one of them atomizing component 1 are connected to the inside of the second external electrode 141 in another atomizing component 1.The structure that removably connects comprises the buckle 1311 radially extending along the lateral wall of the first external electrode 131, and is arranged on guide channel 1411 and stopper slot 1412 on the second external electrode 141 madial walls.Wherein, guide channel 1411 axially arranges along the second external electrode 141 madial walls, and stopper slot 1412 circumferentially arranges and is connected with guide channel 1411 along the second external electrode 141 madial walls.
As shown in Figure 9, when two atomizing components 1 of assembling, buckle 1311 aimed to guide channel 1411 and is inserted into stopper slot 1412, rotating one of them atomizing component 1 buckle 1311 is held in stopper slot 1412.In the present embodiment, adopt the connected mode of rotary buckle to realize removably connecting between adjacent atomizing component 1, it is simple in structure, and adjacent atomizing component 1 while connecting its steadiness good, easy and simple to handle when dismounting atomizing component 1.
As shown in Figure 12, Figure 13, Figure 14, Figure 15 and Figure 16, four of preferred embodiment of the present utility model provides a kind of electronic smoke atomizer, one of itself and embodiment institute's difference is the structure of atomizing component 1, and this atomizing component 1 can add tobacco tar, is repeatedly used to realize.In the present embodiment, each atomizing component 1 also comprises oil storage sleeve pipe 10, the first end cap 17 and the second end cap 18.Oil storage sleeve pipe 10 is roughly the tubular structure of hollow, and it is sleeved on atomization sleeve pipe 11 outsides.The external diameter of this oil storage sleeve pipe 10 is greater than the external diameter of atomization sleeve pipe 11, and roughly equal in length with atomization sleeve pipe 11 of the length of this oil storage sleeve pipe 10.The first end cap 17 is roughly the cylindrical-shaped structure of hollow, and its sealing is arranged on the one end between oil storage sleeve pipe 10 and atomization sleeve pipe 11.The second end cap 18 is roughly the cylindrical-shaped structure of hollow, and its sealing is arranged on one end away from the first end cap 17 between oil storage sleeve pipe 10 and atomization sleeve pipe 11.On atomization sleeve pipe 11, offer the fuel feed hole 111 relative with oil storage part 15 positions.Between oil storage sleeve pipe 10, atomization sleeve pipe 11, the first end cap 17 and the second end cap 18, be formed with the oil storage space that stores tobacco tar.
In the present embodiment, on the first end cap 17, offer tank filler sleeve 171.Each atomizing component 1 also comprises that sealing is arranged on the black box 19 on tank filler sleeve 171.Black box 19 comprises seal 191, seal washer 192 and gasket seal 193.Seal 191 is screw, and correspondingly tank filler sleeve 171 is screwed hole.The seal 191 is arranged in tank filler sleeve 171 to seal this tank filler sleeve 171.Seal washer 192 is roughly circulus, and it is sleeved on the outer wall of seal 191, and 192 sealings of sealing packing ring are arranged between seal 191 and tank filler sleeve 171.Gasket seal 193 is roughly circulus, and it is arranged on the end of the first end cap 17 and for sealing tank filler sleeve 171.In the present embodiment, each atomizing component 1 all can add tobacco tar, is repeatedly used to realize, and to increase the life cycle of described electronic smoke atomizer, and then reduces the cost that uses described electronic smoke atomizer.
As shown in Figure 17 and Figure 18, five of preferred embodiment of the present utility model provides a kind of electronic smoke atomizer, and one of itself and embodiment institute's difference is that electronic smoke atomizer can store the tobacco juice of more amount.In the present embodiment, electronic smoke atomizer also comprises outer tube 3 and the 3rd end cap 4.Outer tube 3 is roughly the tubular structure of hollow, and it is sleeved on multiple described atomizing components 1 outside.The external diameter of this outer tube 3 is greater than the external diameter of atomization sleeve pipe 11, and the length of this oil storage sleeve pipe 10 is slightly larger than the entire length of multiple described atomization sleeve pipes 11.The 3rd end cap 4 is roughly the cylindrical-shaped structure of hollow, and its sealing is arranged on the one end between described atomizing component 1 and the outer tube 3 of one end.On atomization sleeve pipe 11, offer the fuel feed hole 111 relative with oil storage part 15 positions.Between outer tube 3, multiple described atomizing component 1, the 3rd end cap 4 and suction nozzle 2, be formed with the oil storage space that stores tobacco tar.
As shown in figure 19, based on the structure of above-mentioned electronic smoke atomizer, the utility model has also been constructed a kind of electronic cigarette, comprises the electronic smoke atomizer described in as above embodiment, and the battery component 5 being connected with described electronic smoke atomizer.Due to the structure of two atomizing components 1 of described electronic smoke atomizer employing, compared with only having the electronic smoke atomizer of an atomizing component 1 in prior art, this electronic cigarette has technique effect described above simultaneously.
In sum, the described electronic smoke atomizer in the present embodiment and electronic smoking set have following effect:
A, described electronic smoke atomizer adopt the atomizing component 1 of multiple and coaxial setting, and the smoke path 100 of adjacent described atomizing component 1 is interconnected, and described heating wire 12 is partly or entirely placed in to the structure in described smoke path 100, the amount of smoke producing while making described electronic smoke atomizer work is large.When smoking, multiple smog is all sent into smoker's oral cavity by the described smoke path being interconnected 100, when the smog that contains tobacco tar particle in atomizing component 1 away from suction nozzle is flowed through from suction nozzle the atomizing component 1 close to, the heating wire 12 of the atomizing component 1 from described suction nozzle close to carries out heating atomization to described tobacco tar particle again, thereby overall amount of smoke is further improved.And, prevent well tobacco tar condensation and further prevented that user from sucking tobacco tar, improve user's experience.
Atomizing component 1 structure of b, coaxial setting is compacter, there is no extra air memory space, smog when smoking after atomization is directly sent into smoker oral cavity by the described smoke path being interconnected 100, make the concentration of smog higher because not being subject to Dilution air, it just obtains larger amount of smoke and higher smokescope by less smoking dynamics, has improved user's experience.
C, multiple described atomizing component 1 adopt the structure removably connecting successively, while assembling multiple described atomizing component 1, it is easy and simple to handle, and each atomizing component 1 all can be replaced use independently, make user to select the atomizing component 1 of varying number according to the demand of oneself, to reach the effect that regulates amount of smoke.In addition, in the time that damaging, certain atomizing component 1 is easy to detect and be convenient for changing, and easy to use.
D, smoker can be combined and be regulated voluntarily required tobacco tar taste by the atomizing component of different tobacco tar tastes 1, thereby can meet user's individual demand, and regulate simple and conveniently, have further improved user's experience.
By reference to the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to the above-mentioned specific embodiment; the above-mentioned specific embodiment is only schematic; rather than restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not departing from the scope situation that the utility model aim and claim protect, also can make a lot of forms, within these all belong to protection of the present utility model.