CN203872994U - Atomization device and electronic cigarette - Google Patents

Abstract

The utility model relates to an atomization device and an electronic cigarette. The atomization device is used for forming the electronic cigarette together with a power device, and comprises a tar storage mechanism and an atomization assembly, wherein the tar storage mechanism is provided with a tar conveying passage used for conveying tobacco tar in the tar storage mechanism to the atomization assembly, a tar guide member rotatable with respect to the tar storage mechanism is arranged between the tar storage mechanism and the atomization assembly and is provided with a tar guide passage corresponding to the tar conveying passage in position. By rotating the tar guide member to adjust the relative position between the tar guide member and the tar storage mechanism, the tar conveying passage and the tar guide passage are connected or disconnected, so as to open or close a tobacco tar circulating passage between the tar storage mechanism and the atomization assembly. With adoption of the atomization device and the electronic cigarette, the effective utilization of the tobacco tar is improved, and leakage of the tobacco tar is prevented.

Description

Atomising device and electronic cigarette

Technical field

The utility model relates to daily electronic product field, more particularly, relates to a kind of atomising device and electronic cigarette.

Background technology

Electronic cigarette is generally made up of atomising device and supply unit, and atomising device carries out atomization generation smog to tobacco tar to be sucked for user, and supply unit is powered to atomising device.The atomising device of electronic cigarette of the prior art generally includes and stores the oil storage part of tobacco tar and the atomizing component that tobacco tar is carried out to atomization, oil storage part is provided with tobacco tar opening so that tobacco tar can flow out from oil storage part, then by atomizing component, tobacco tar is carried out to heating atomization.Above-mentioned atomising device is in the idle situation of electronic cigarette, and tobacco tar all the time can be owing to being seeped into atomizing component under the reasons such as gravity, and its tobacco tar utilization rate is not high yet, and in situation about being given a shock, leakage of oil easily occurs.And because tobacco tar passage is complete opening-wide state, after not only using, do not have Packed means to make tobacco tar ooze out the wasting phenomenon that produces tobacco tar, tobacco tar utilization rate is low, nor can regulate according to user's demand very flexible to tobacco tar smoke discharging volume.

So prior art exists defect, need to improve.

Utility model content

The technical problems to be solved in the utility model is, the defect of and easy leakage of oil not high for the above-mentioned atomising device tobacco tar utilization rate of prior art, provides a kind of atomising device and electronic cigarette that can effectively prevent leakage of oil and improve tobacco tar utilization rate.

The utility model solves the technical scheme that its technical problem adopts: construct a kind of atomising device, for being combined to form electronic cigarette with supply unit, described atomising device comprises oil-bearing structure and atomizing component, described oil-bearing structure is provided with the oil transportation channel for the tobacco tar in described oil-bearing structure being exported to described atomizing component, between described oil-bearing structure and described atomizing component, be provided with the oil-deflecting element that can rotate with respect to described oil-bearing structure, described oil-deflecting element is provided with the Oil Guide passage corresponding with described oil transportation channel position, regulate the relative position between described oil-deflecting element and described oil-bearing structure by rotating described oil-deflecting element, make conducting or not conducting between described oil transportation channel and described Oil Guide passage, and open or close the tobacco tar circulation passage between oil-bearing structure and atomizing component.

In atomising device described in the utility model, described oil-bearing structure comprises that oil storage cup and lid are located at the oil removal part of described oil storage cup openend, on described oil removal part, offer the opening as described oil transportation channel, on described oil-deflecting element, corresponding described opening offers the via as described Oil Guide passage;

In the time of described atomising device work, by rotating described oil-deflecting element to the first desired location, described via and described opening form described tobacco tar circulation passage, and described tobacco tar circulation passage is for deriving described tobacco tar; In the time of described oil-deflecting element to the second desired location of rotation, described via and described opening mutually stagger described tobacco tar circulation passage are closed.

In atomising device described in the utility model, described atomising device also comprises the outer tube being set on described atomizing component, described oil-deflecting element comprises with described oil removal part and is rotationally connected and is fixed on the mount pad of described outer tube one end and be arranged on the seal of described mount pad towards described oil removal part one side, offers described via on described seal.

In atomising device described in the utility model, described mount pad is circumferentially extruded with snapping portion away from axle center, the end face of described oil removal part is provided with the docking slot inserting for one end of described mount pad, the circumferential side wall of described docking slot offers the stopper slot suitable with described snapping portion, and described snapping portion can rotate in described stopper slot.

In atomising device described in the utility model, described atomizing component comprises Oil Guide rope and is wrapped in the heating wire on described Oil Guide rope; In described mount pad, contain respectively the tobacco tar buffer memory part connecting with described seal and described Oil Guide rope (116), the described tobacco tar that described tobacco tar buffer memory part is made of porous materials and transmits for storing described via, for described electric-heating-wire-heating atomization.

In atomising device described in the utility model, on described seal, also offer fixing hole, on described mount pad, be extruded with the projection suitable with described fixing hole.

In atomising device described in the utility model, described atomising device also comprises the atomization cover being set in described atomizing component and described oil-bearing structure, described oil-deflecting element comprises with described oil removal part butt and is formed with the mount pad of a spatial accommodation and is arranged on the seal that can rotate relative to described oil removal part in described spatial accommodation, offers described via on described seal.

In atomising device described in the utility model, described atomization cover is provided with the second chute radially extending, described seal is provided with the shifting block extending to outside described the second chute, the corresponding described shifting block of described mount pad forms first breach corresponding with described punch position, and described shifting block can drive described seal to rotate along described the first breach.

In atomising device described in the utility model, on described oil removal part, corresponding described shifting block offers the second breach, and described the second breach and described the first breach form the first chute rotating for described shifting block jointly.

In atomising device described in the utility model, described atomising device also comprises the atomization cover being set in described atomizing component and described oil-bearing structure, described oil removal part comprise radially offer along described oil removal part for holding the installing hole of described oil-deflecting element, described installing hole and opening connect mutually, described oil-deflecting element) radially offer described via, described oil-deflecting element can rotate relative to described oil removal part.

In atomising device described in the utility model, described opening comprises multiple, opening axially offering and running through described oil removal part along described oil removal part respectively described in each; Described installing hole is radially offered and runs through described oil removal part along described oil removal part.

In atomising device described in the utility model, described oil-deflecting element comprises seal and is set in described seal one end for driving the rotating handle of described seal rotation.

In atomising device described in the utility model, the first end of the corresponding described installing hole of described atomization cover offers the through hole being connected with described installing hole, described seal comprises conducting portion and operating portion, and described conducting portion is housed in described installing hole, and described operating portion is protruding from described through hole.

In atomising device described in the utility model, the sheathed described rotating handle in described operating portion one end, described rotating handle is used for driving described seal to rotate relative to described atomizing component.

In atomising device described in the utility model, described conducting portion radially offers described via, described rotating handle is rotated to a preset angles to described the first predeterminated position, described via is connected with described opening, described preset angles is indicated by described rotating handle.

In atomising device described in the utility model, described conducting portion is greater than the diameter of described through hole near the diameter of described first end.

In atomising device described in the utility model, be provided with the nebulization channel for the smog circulation forming after tobacco tar atomization in described oil-bearing structure, described oil-bearing structure one end offers venthole, and described venthole is connected with described nebulization channel.

The utility model also provides a kind of electronic cigarette, comprises above-mentioned atomising device and the supply unit for described atomising device power supply.

Implement atomizing component of the present utility model and electronic cigarette, there is following beneficial effect: described atomizing component is realized and controlled the conducting of tobacco tar passage and close by the rotation fit structure between described oil-deflecting element and described oil removal part, in the time that user uses electronic cigarette to carry out atomization to tobacco tar, operate and make oil-deflecting element rotation to the position being communicated with oil removal part by user, tobacco tar can flow through successively described oil removal part, the described atomizing component of the final arrival of described oil-deflecting element; When user's non-smoking, rotation will be blocked oil-deflecting element for the passage of tobacco tar circulation on oil removal part, can ensure that thus tobacco tar can be from seepage in oil storage cup in the situation that not using, improve thus the utilization rate of tobacco tar and effectively prevented the generation in leakage of oil situation.

Closer, the structure that is arranged on the shifting block that protrudes from outside atomization cover or rotating handle of the present utility model has greatly facilitated user's operation, and user can regulate the tobacco tar smoke discharging volume needing according to demand, has met different users's demand; And contribute to user by the location status of shifting block or rotating handle, the connection situation of tobacco tar passage to be judged intuitively, therefore user experiences better.Revolve with oil removal part and to be communicated with to regulate smoke discharging volume size because the utility model has designed the oil-deflecting element rotatably regulating, improved the utilization rate of tobacco tar.

Brief description of the drawings

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

Fig. 1 is the atomising device structural representation that one of the utility model preferred embodiment provides;

Fig. 2 is the explosive view of atomising device shown in Fig. 1;

Fig. 3 is the cutaway view of the atomising device in Fig. 1;

Fig. 4 is the P place enlarged diagram of the atomising device shown in Fig. 3;

Fig. 5 is the partial schematic sectional view of atomising device shown in Fig. 1 in the time not working;

Fig. 6 is the partial schematic sectional view of atomising device shown in Fig. 1 under in working order;

Fig. 7 is the atomising device stereogram that two of the utility model preferred embodiment provides;

Fig. 8 is the partial exploded view of atomising device shown in Fig. 7;

Fig. 9 is the explosive view of atomising device shown in Fig. 7;

Figure 10 is the partial schematic sectional view of atomising device shown in Fig. 7 in the time not working;

Figure 11 is the partial schematic sectional view of atomising device shown in Fig. 7 under in working order;

Figure 12 is the explosive view of the atomising device that provides of three of the utility model preferred embodiment;

Figure 13 is the partial exploded view of atomising device shown in Figure 12;

Figure 14 is the cutaway view of atomising device shown in Figure 12;

Figure 15 is that the A-A of atomising device shown in Figure 14 is to cross-sectional schematic;

Figure 16 is the partial schematic sectional view of atomising device shown in Figure 12 under in working order.

Detailed description of the invention

In order to overcome the leakage of oil that prior art brings in opening-wide state all the time due to tobacco tar passage and can not to regulate the size of tobacco tar passage, the problem of very flexible, innovative point of the present utility model is: regulate conducting and not conducting between the Oil Guide passage on oil transportation channel and the oil-deflecting element in atomising device oil-bearing structure by rotation, and then open or close the tobacco tar circulation passage between oil-bearing structure and atomizing component.The utility model is that the form design opening wide is completely tobacco tar passage to be opened or closed according to the difference of duty by tobacco tar passage of the prior art, like this in the transportation of atomising device and not in use procedure time, can stop tobacco tar to flow out, avoid tobacco tar due to the tobacco tar Seepage that is vulnerable to vibrations etc. occurs in transport or storing process.In the time that atomising device is worked, on rotation oil-deflecting element to desired location, tobacco tar channel connection, tobacco tar can flow out from this tobacco tar passage; Meanwhile, regulate the relative position between oil-deflecting element and oil-bearing structure by rotation oil-deflecting element, can make the oil pump capacity in tobacco tar passage also change thereupon, can realize thus the adjusting to tobacco tar oil pump capacity.The structure of atomising device of the present utility model, make the electronic cigarette in use can be according to user's hobby, adjust the size of oil mass, in not using, tobacco tar circulation passage is closed, and the phenomenon that has overcome prior art electronic cigarette tobacco tar seepage in the time not using occurs and the lower defect of tobacco tar utilization rate.

Understand for technical characterictic of the present utility model, object and effect being had more clearly, now according to accompanying drawing, detailed description of the invention of the present utility model is described further.

Embodiment mono-

As shown in Fig. 1-7, be the atomising device that one of preferred embodiment of the present utility model provides, can be used for forming electronic cigarette with supply unit assembling, the structure of supply unit is that prior art does not repeat at this.Atomising device of the present utility model with the connected mode of supply unit for being threaded, be to be understood that the annexation between atomising device of the present utility model and supply unit is not limited to this, also can be that for example magnetic connects, be fastened and connected or integrated structure.

With reference to figure 1, atomising device of the present utility model comprise oil-bearing structure 2, atomizing component 11 and be arranged on oil-bearing structure 2 and atomizing component 11 between oil-deflecting element 20, in oil-bearing structure 2, be provided with the oil transportation channel of depositing the oil storage cup 14 of tobacco tar and exporting atomizing component 11 for tobacco tar to, oil-deflecting element 20 is provided with Oil Guide passage corresponding to described oil transportation channel.Oil-deflecting element 20 can rotate with respect to oil-bearing structure 2, therefore in the process of rotation oil-deflecting element 20, relative position between described oil transportation channel in described Oil Guide passage and oil-bearing structure 2 on oil-deflecting element 20 changes, when described Oil Guide passage forms the tobacco tar circulation passage being communicated with between oil-bearing structure 2 and atomizing component 11 during with described oil transportation channel conducting, in the time of described Oil Guide passage and described not conducting of oil transportation channel, described tobacco tar circulation passage is closed.

Atomizing component 11 is electrically connected with supply unit to be realized the interior cigarette oil atomization of oil storage cup 14, oil storage cup 14 is openend near one end of atomizing component 11, this open end cap is provided with oil removal part 16, oil removal part 16 covers the oil outlet end of oil storage cup 14, in order to facilitate tobacco tar to flow out, on oil removal part 16, offer the opening 161 flowing out for tobacco tar, opening 161 is as above-mentioned oil transportation channel.In order to control the circulation of tobacco tar, oil-deflecting element 20 of the present utility model is arranged between oil removal part 16 and atomizing component 11, on oil-deflecting element 20, offer the via 121 of the above-mentioned Oil Guide passage of the conduct corresponding with opening 161, between oil-deflecting element 20 and oil removal part 16, formed tobacco tar circulation passage.In oil-bearing structure 2, be provided with nebulization channel 155, in the time that via 121 is connected with opening 161, tobacco tar forms smog after atomizing component 11 atomizations, and described smog enters nebulization channel 155 and finally sucked by user.

With reference to figure 1-3, atomizing component 11 in the present embodiment is provided with tobacco tar buffer memory part 13 near one end of oil-deflecting element 20, tobacco tar in oil storage cup 14 infiltrates into tobacco tar buffer memory part 13 after opening 161, via 121 flows out, and by atomizing component 11, tobacco tar buffer memory part 13 is passed to the tobacco tar of coming and heats and make tobacco juice atomization.The atomizing component of the present embodiment is arranged with outer tube 110 outward, oil-deflecting element 20 comprises mount pad 15 and is arranged on the seal 12 of mount pad 15 towards oil removal part 16 1 sides, mount pad 15 and oil removal part 16 are rotationally connected and are fixed on one end of outer tube 110, seal 12 is close to oil removal part 16, offers via 121 on seal 12.In order to ensure good sealing effectiveness, the seal 12 of the present embodiment has adopted preferably silica gel material of elasticity.In order to prevent the seepage of tobacco juice, tobacco tar buffer memory part 13 one end butt atomizing components 11, the other end butt seal 12 of tobacco tar buffer memory part 13, the space of described tobacco tar buffer memory part 13 is held in the interior formation of mount pad 15 of the present embodiment.Oil-bearing structure 2 is also provided with the nebulization channel 155 of the smog circulation producing for atomizing component 11 atomizations, and obviously nebulization channel 155 is not communicated with oil storage cup 14, and oil-bearing structure 2 ends offer the venthole 100 being connected with nebulization channel 155.

Oil storage cup 14 and the one-body molded formation of nebulization channel 155 oil-bearing structure 2 in the present embodiment, can be for example the inner chamber of oil-bearing structure 2 can be separated into oil storage cup 14 and nebulization channel 155 by fixing a dividing plate (not shown), described dividing plate can with the one-body molded formation of the inner chamber of oil-bearing structure 2, integrated structure can obtain better sealing effectiveness, and assembling simply and is not clashed into and is shifted because of concussion.The oil removal part 16 of the present embodiment is roughly the cylindric oil outlet end that is set in oil-bearing structure 2, and the openend of butt oil storage cup 14, one end end face of oil removal part 16 butt oil storage cups 14 offers the opening 161 flowing out for tobacco tar, and the position of the corresponding nebulization channel 155 of one end end face of oil removal part 16 butt oil storage cups 14 also offers the first slit 160, the first slit 160 is communicated with nebulization channel 155, for smog circulation.Corresponding the first slit 160, mount pad 15 side-wall shafts are to having offered for the second slit 150 for smog circulation, the second slit 150 runs through mount pad 15 sidewalls, described mount pad 15 inwalls form the cavity that holds described tobacco tar buffer memory part 13, described cavity and described the second slit 150 are separate to prevent that the tobacco tar in tobacco tar buffer memory part 13 from entering described nebulization channel 155 and directly being sucked by user through described the second slit 150, affects mouthfeel.On one end end face of mount pad 15 near oil removal part 16, fixedly mount seal 12, on seal 12, offered and the via 121 corresponding with opening 161.

Mount pad 15 lateral walls circumferentially part are outwards extruded with snapping portion 200, and oil removal part 16 end faces are provided with the docking slot inserting for one end of described mount pad 15, the corresponding snapping of the part portion 200 that described docking slot madial wall contacts with mount pad 15 offers stopper slot 300, and snapping portion 200 can circumferentially rotate along described atomising device described stopper slot 300 is interior.Being fixed on mount pad 15 on outer tube 110 and lid is located at oil removal part on oil storage cup 14 and realizes axial relative fixing by mating between snapping portion 200 and stopper slot 300, simultaneously due to the slip between snapping portion 200 and stopper slot 300, conducting state between via 121 and opening 161 is changed, realize thus opening or closing of tobacco tar passage.Seal 12 is arranged on described mount pad 15, and described mount pad 15 can drive described seal 12 to rotate relative to described oil removal part 16.In the present embodiment, by offer fixing hole 120 on seal 12, on mount pad 15, projection 151 outstanding and that described fixing hole 120 is suitable realizes seal 12 fixing on mount pad 15 accordingly.Fig. 2 can find out.Because the mount pad 15 in the present embodiment has loop configuration, the outstanding end face that is distributed in mount pad 15 of projection 151, the submarginal week that 120 of fixing holes are opened in seal 12 accordingly upwards, above-mentioned protruding 151 and the structure of fixing hole 120 both contributed to fixing between adjacent component, be also beneficial to assembling contraposition.

The outer sheathed outer tube 110 of the atomizing component 11 of the present embodiment.Atomizing component 11 comprises being arranged on and in outer tube 110, is respectively used to conduct electricity the first electrode 113, the second electrode 114 that are connected and atomization seat 112 and heat generating component 111 with the positive/negative of supply unit.The first electrode 113 and the coaxial nested setting of the second electrode 114, the second electrode 114 is set in the first electrode 113, simultaneously between the first electrode 113 and the second electrode 114, be fixed with insulating part 115, the extruding by insulating part 115 respectively and between the first electrode 113, the second electrode 114 realizes adjacent the interfixing between the two of the first electrode 113, insulating part 115, the second electrode 114.Atomization seat 112 is fixed in outer tube 110, and the first electrode 113, the second electrode 114 are fixed and be connected to respectively to heat generating component 111 by atomization seat 112.Heat generating component 111 comprises Oil Guide rope 116 and is wrapped in the heating wire 117 of Oil Guide rope 116, in described mount pad 15, contain respectively the tobacco tar buffer memory part 13 connecting with described seal 12 and described Oil Guide rope 116, the tobacco tar that described tobacco tar buffer memory part 13 is made of porous materials and transmits for storing described via 121, carries out atomization for described atomizing component 11.The tobacco tar buffer memory part 13 of the present embodiment is oil storage cotton.First tobacco tar buffer memory part 13 can infiltrate on tobacco tar buffer memory part 13 between seal 12 and heat generating component 111 after tobacco tar flows out, and obtain and be uniformly distributed on tobacco tar buffer memory part 13, avoid tobacco tar to be flowed directly on heat generating component 111, produce the phenomenon of tobacco tar skewness.

The mount pad 15 of the present embodiment is fixedly connected with atomizing component 11, be connected by the cooperation realization between snapping portion 200 and stopper slot 300 and the rotational slide between oil removal part 16, therefore the atomising device of the present embodiment can be controlled the relative motion between via 121 and described opening 161 by the rotation of controlling between outer tube 110 and atomization cover 10 simultaneously.

With reference to figure 3, it is the cutaway view after atomising device assembling of the present utility model.Oil removal part 16 is set in the openend of oil-bearing structure 2 and is partially submerged into oil storage cup 14, the first slits 160 and just nebulization channel 155 is communicated with nebulization channel 155.Mount pad 15 and oil removal part 16 fits, seal 12 butt oil removal parts 16, in the situation of Fig. 3, the second slit 150 is just realized being communicated with of nebulization channel 155 and tobacco tar circulation passage to the first slit 160, be that tobacco tar arrives atomizing component 11 through oil removal part 16, oil-deflecting element 20, tobacco tar buffer memory part 13, after atomization, produce smog and arrive nebulization channel 155 through the second slit 150, the first slit 160.

With reference to figure 4, it is the structure for amplifying schematic diagram at P place in Fig. 3.The snapping portion 200 of mount pad 15 sidewalls slidably engages with oil removal part 16, due to seal 12 butt oil removal parts 16, under the state of Fig. 4, via 121 is just corresponding overlapping one by one with opening 161, therefore the complete conducting of tobacco tar circulation passage, and now, also just aim at now also conducting of nebulization channel 155 with the first slit 160 on oil removal part 16 with the second slit 150 that is coaxially arranged on mount pad 15 sidewalls.Because seal 12 is fixed on mount pad 15, therefore can realize the conducting between via 121 and opening 161 by rotary mounting seat 15.

As shown in Figure 5, via 121 on oil-deflecting element 20 staggers completely with the opening 161 on oil removal part 16, , tobacco tar cannot flow into tobacco tar buffer memory part 13 from oil storage cup 14, the residing position of oil-deflecting element 20 is now defined as the second desired location, can find out that the mount pad 15 after the first slit 160 is rotated blocks simultaneously, therefore nebulization channel 155 is blocked, therefore user can rotate snapping portion 200 by one side, air-breathing from the venthole 100 shown in Fig. 3 on one side, when cannot be smoothly when air-breathing in atomising device, 200 rotations of snapping portion are to described the second desired location, tobacco tar circulation passage is closed completely.As shown in Figure 6, under this state, via 121 on oil-deflecting element 20 is aimed at completely with the opening 161 on oil removal part 16,, tobacco tar, from oil storage cup 14 flow through each opening 161, via 121, finally flows in tobacco tar buffer memory part 13, and the residing position of oil-deflecting element 20 is now defined as the first desired location, can find out the first slit 160 just and the second slit 150 conductings with reference to figure 3, therefore nebulization channel 155 is conducting state simultaneously.Now user can be successfully air-breathing from the venthole 100 shown in Fig. 3, therefore user can be by the process of rotation snapping portion 200, can air-breathingly judge whether snapping portion 200 rotates to described the first desired location from venthole 100 is smooth according to whether, the whether conducting completely of tobacco tar circulation passage.

In addition, in the time of the location status of snapping portion 200 between the first desired location and the second desired location, for fear of occurring the first slit 160 and the second slit 150 not conductings completely, and the situation of via 121 and opening 161 part conductings, avoid the situation of tobacco tar infiltration tobacco tar buffer memory part 13 in the situation that not smoking, the opening 161 of the present embodiment is opened in the position of departing from atomization Tao10 center, and the movement locus of each opening 161 in rotary course is concentrically ringed structure, it is the situation that the rotational trajectory of each opening 161 does not exist intersection, there is relation one to one with opening 161 in the via 121 corresponding with opening 161, and each opening 161 only can be aimed at unique via 121 all the time.In the process of rotation snapping portion 200, once can be air-breathing from venthole 100, prove that at least corresponding opening 161 exists aiming at of part with via 121, continue rotation, if throughput strengthens, prove that snapping portion 200 is in past described the first desired location rotation, if airflow drops, prove that snapping portion 200, toward described the second desired location rotation, can control the switching of tobacco tar circulation passage thus, also facilitate user to set applicable tobacco tar circulation simultaneously.

As can be seen from Figure 1, the atomising device of the present embodiment is by oil-bearing structure 2, the structure of the split type connection fastening mutually between oil-deflecting element 20 and atomizing component 11 threes, therefore be convenient to dismounting, and can be by dismantling this atomising device to carrying out tobacco tar supply in oil storage cup 14, the oil removal part 16 of for example the present embodiment is entrenched in the openend of oil-bearing structure 2, oil removal part 16 and oil-deflecting element 20 are to fix by engaging between snapping portion 200 and stopper slot is spacing, therefore can be by atomizing component 11 along pullling oil removal part 16 is deviate from from oil-bearing structure 2 away from the direction of oil-bearing structure, can be to the interior interpolation tobacco tar of oil storage cup 14.Therefore the atomizing component of the present embodiment not only can improve the utilization rate of tobacco tar and prevent the seepage of tobacco tar, is also beneficial to dismounting and has the advantages that to repeat to add tobacco tar.

Be to be understood that, the setting of the opening 161 of atomising device of the present utility model is not limited to foregoing description, also can only be arranged on any position of departing from atomization Tao10 center, and for fear of occurring the first slit 160 and the second slit 150 not conductings completely, and the situation of via 121 and opening 161 part conductings, avoid the situation of tobacco tar infiltration tobacco tar buffer memory part 13 in the situation that not smoking, can control by the entire length that limits stopper slot 300.

Embodiment bis-

Be the second preferred embodiment of the present utility model with reference to figure 7-11, be with the difference part of the first embodiment, the oil-deflecting element 20 of the present embodiment and the concrete structure of oil removal part 16 are slightly different.Similar with the first embodiment, the present embodiment is also that the control to tobacco tar circulation passage is realized in the position of adjusting between via 121 and opening 161 by the rotation between oil-deflecting element 20 and oil removal part 16.

As shown in Figure 7, than embodiment mono-, the atomising device of the present embodiment comprises the atomization cover 10 being set in atomizing component 11 and oil-bearing structure 2.In conjunction with Fig. 9, the atomizing component 11 of the present embodiment comprises the first electrode 113, insulating part 115, second electrode 114 of nested setting, and be arranged on atomization seat 112 and the heat generating component 111 in the first electrode 113, the oil-bearing structure 2 of the present embodiment comprises that oil storage cup 14 and lid are located at the oil removal part 16 of oil storage cup 14 openends, be to be understood that oil storage cup 14 can directly be formed in atomization cover 10, being oil storage cup 14 overlaps 10 one-body moldedly with atomization, can be also the nested absolute construction being arranged in atomization cover 10.The structure of similar embodiment one, the oil-bearing structure 2 of the present embodiment is also provided with the nebulization channel (not shown) with oil storage cup 14 not conductings, venthole 100 is offered in one end of oil-bearing structure 2, and described nebulization channel extends to venthole 100 one end and is communicated with outside air.With reference to Figure 10, in the present embodiment, atomization cover 10 can be one-body molded with oil storage cup 14, described nebulization channel, and oil storage cup 14, described nebulization channel are formed in atomization cover 10, and the venthole 100 shown in Fig. 9 directly overlaps 10 one end in atomization and offers.The described nebulization channel of the present embodiment remains connection, in the rotary course of oil-deflecting element 20, only has tobacco tar circulation passage to change.

Particularly, with reference to figure 9, the oil-deflecting element 20 of the present embodiment comprises mount pad 15 and seal 12, mount pad 15 all caves inward and forms the spatial accommodation that holds seal 12 towards a side of seal 12 separately with oil removal part 16, seal 12 1 sides are close to oil removal part 16 opposite sides and are close to mount pad 15, in the form of a ring, seal 12 can rotate relative to oil removal part 16 mount pad 15.On oil removal part 16, offer opening 161, on seal 12, correspondence offers via 121.Tobacco tar through opening 161, via 121 again in the mount pad 15 of ring-type flows into tobacco tar buffer memory part 13, the shape of tobacco tar buffer memory part 13, mount pad 15 and oil removal part 16 in the present embodiment is all suitable with the cross sectional shape of oil storage cup 14, the oil outlet end of its holding also close oil storage cup 14 in oil storage cup 14.Seal 12 is radially extruded with shifting block 210 away from axle center position, on atomization cover 10, offers the second chute 201 radially extending, and shifting block 210 stretches out from described the second chute 201.The corresponding described shifting block 210 of mount pad 15 sidewalls forms the first breach 300a, described shifting block 210 can drive described seal 12 to slide along described the first breach 300a, on the part of oil removal simultaneously 16 sidewalls, corresponding described shifting block 210 offers the second breach 300b, and described the second breach 300b and described the first breach 300a form the first chute sliding for described shifting block 210 jointly.Between above-mentioned seal 12 sandwicheds and mount pad 15 and oil removal part 16 and by the structure that the second breach 300b and the first breach 300a form the first chute sliding for shifting block 210 jointly, have easy to assembly and be beneficial to the effect of contraposition.

Be to be understood that seal 12 of the present utility model also can be embedded in mount pad 15 or oil removal part 16, by mount pad 15, any one in oil removal part 16 held seal 12 and gone out to offer the first breach 300a or the second breach 300b stretches out for shifting block 210 at the corresponding shifting block 210 of sidewall, now described the first chute is only made up of the first breach 300a or the second breach 300b, be to be understood that, no matter seal 12 is embedded in mount pad 15 or oil removal part 16, seal 12 all the time with oil removal part 16 butts, to guarantee fitting tightly to avoid the space due between seal 12 and oil removal part 16 to cause leakage of oil between opening 161 and via 121.With reference to figure 7, the above-mentioned oil removal part 16 of the present embodiment, oil-deflecting element 20 are arranged on after oil storage cup 14 oil outlet ends shifting block 210 and overlap 10 interior parts from atomization and stretch out, and it is corresponding with described the first chute that therefore the second chute 201 stretching out for shifting block 210 that 10 tube walls offer is overlapped in atomization.While using this atomising device, user can circumferentially promote shifting block 210 opening and closing with control tobacco tar circulation passage in the interior slip of the second chute 201 along atomising device.

With reference to figure 8, the seal 12 of the present embodiment is roughly rounded, its side is radially extruded with shifting block 210 in the direction away from axle center, on seal 12, offer vertically via 121, via 121 quantity in the present embodiment are 3, on oil removal part 16 to having offered opening 161 by via 121, in order to ensure that seal 12 is after central shaft rotates, between via 121 and opening 161, can produce dislocation, the via 121 in the present embodiment is opened in the optional position at off-axis center.

In addition, in order to control intuitively the circulation of tobacco tar, the opening 161 in the present embodiment is with via 121 all on time, and tobacco tar circulation passage is opened completely, and the tobacco tar flow maximum now position of shifting block 210 correspondences is defined as the first predeterminated position; In the time that opening 161 and via 121 stagger completely, tobacco tar circulation passage is closed completely, and tobacco tar cannot infiltrate into tobacco tar buffer memory part 13 downwards, and now the position of shifting block 210 correspondences is defined as the second predeterminated position.In order to facilitate the directly perceived understanding of user to tobacco tar flow, the utility model can also overlap on 10 pipes corresponding above-mentioned the first predeterminated position and/or the second predetermined position arranges mark in atomization, for example, in the present embodiment in the time that shifting block 210 is positioned at the second chute 201 position, middle, three openings 161 are aimed at just completely with via 121, now tobacco tar flow maximum, therefore, the position, middle that can overlap corresponding the second chute 201 on 10 lateral walls in atomization arranges the mark of this first predeterminated position of instruction, and tobacco tar flow all reduces during from the second chute 201 middles along both sides either side slip shifting block 210, setting the second chute 201 two ends is described the second predeterminated position, the position that can overlap corresponding the second chute 201 two ends on 10 in atomization arranges the mark of this second predeterminated position of instruction.The method of the above-mentioned mark that corresponding the first predeterminated position and/or the second predeterminated position are set can be to paste, portray, print etc.

As shown in figure 10, promote in the situation shown in shifting block 210 to Figure 10, via 121 on seal 12 staggers completely with the opening 161 on oil removal part 16,, tobacco tar cannot flow into tobacco tar buffer memory part 13 from oil storage cup 14, the residing position of oil-deflecting element 20 is now defined as the second desired location, and tobacco tar circulation passage is closed completely.

As shown in figure 11, under this state, via 121 on seal 12 is aimed at completely with the opening 161 on oil removal part 16,, tobacco tar is from oil storage cup 14 flow through each opening 161, via 121, final inflow in tobacco tar buffer memory part 13, the complete conducting of tobacco tar circulation passage, the residing position of oil-deflecting element 20 is now defined as the first desired location.

Adopt the atomising device of the present embodiment, user can realize the control to tobacco tar circulation passage by promoting shifting block 210 in the time controlling tobacco tar circulation, operate more directly perceived, and the above-mentioned mark that described the first predeterminated position of instruction, described the second predeterminated position are set on atomization cover 10 contributes to the conducting state of the current tobacco tar circulation passage of user's intuitive judgment, operate simplyr, use more convenient.

Embodiment tri-

Be the 3rd embodiment of the present utility model with reference to figure 13-16.Than embodiment bis-, the difference of the present embodiment is, the direction of rotation between oil-deflecting element 20 and oil removal part 16 is different, and the present embodiment is oil-deflecting element 20 along himself radial rotary to realize the conducting of tobacco tar circulation passage or to close.

Identical with embodiment bis-, as shown in figure 15, the oil removal part 16 of the present embodiment is arranged on the oil outlet end of oil storage cup 14, and shape is suitable with oil storage cup 14 cross sectional shapes, and the oil-bearing structure 2 of the present embodiment is similar with structure and the embodiment bis-of atomization cover 10, and therefore not to repeat here.Similar with embodiment bis-, the atomizing component 11 of the present embodiment comprises the first electrode 113, insulating part 115, second electrode 114 of nested setting, and be arranged on atomization seat 112, the heat generating component 111 in the first electrode 113, atomizing component 11 is directly set in atomization and overlaps 10 openends, and nebulization channel 155 remains connection, in the rotary course of oil-deflecting element 20, only have tobacco tar circulation passage to change.

Particularly, with reference to Figure 13, the oil removal part 16 of the present embodiment comprise radially offer along described oil removal part 16 for holding the installing hole 162 of described oil-deflecting element 20, and oil removal part 16 axially offer the opening 161 for tobacco tar circulation, described installing hole 162 connects mutually with opening 161.The opening 161 of the present embodiment comprises multiple, opening 161 axially offering and running through described oil removal part 16 along described oil removal part 16 respectively described in each, installing hole 162 is radially offered and runs through described oil removal part 16 along described oil removal part 16, and described installing hole 162 is connected with opening 161.Due to the oil removal part 16 of the present embodiment except for oil removal also for fixedly mounting oil-deflecting element 20, therefore the oil-deflecting element 20 in the present embodiment is without the mount pad 15 arranging as shown in Figure 7, the oil-deflecting element 20 of the present embodiment comprises seal 12 and is set in seal 12 one end for the rotating handle 122 with rotating with dynamic seal 12, seal 12 radially offers the via corresponding with opening 161 121, and seal 12 is inserted into mount pad 15 can be along himself radial rotary after interior.

Should be appreciated that seal 12 of the present utility model also can one-body moldedly arrange with rotating handle 122, oil-deflecting element 20 of the present utility model can only comprise seal 12.The seal 12 of the present embodiment comprises conducting portion 123 and operating portion 124, described conducting portion 123 is housed in described installing hole 162, seal 12 radially runs through after oil removal part 16 along oil removal part 16, conducting portion 123 is housed in installing hole 162, operating portion 124 stretches out and partly protrudes from atomization sleeve pipe 10 from installing hole 162, the sheathed rotating handle rotating with dynamic seal 12 122 on operating portion 124.Conducting portion 123 radially offers via 121, and rotating handle 122 is rotated to a preset angles, and described via 121 is connected with described opening 161, and described preset angles is indicated by described rotating handle 122.The application's opening 161 is axially offered along atomising device, and in the rotary course of seal 12, the perforation direction of via 121 is rotation thereupon also, therefore the rotating handle 122 of the present embodiment arranges parallelly with the perforation direction of via 121 all the time, and therefore the application's preset angles can be indicated jointly by rotating handle 122 and the axis of the application's atomising device.

With reference to Figure 14, the first end 12a that 10 corresponding described installing holes 162 are overlapped in atomization offers the through hole 125 being connected with described installing hole 162, and described operating portion 124 is protruding from described through hole 125.Conducting portion 123 is greater than the diameter of described through hole 125 near the diameter of described first end 12a, therefore, in the process of rotating seal 12, seal 12 can not deviate from by via through holes 125 from atomization cover 10.The in the situation that of Figure 14, seal 12 through rotation after via 121 point to described atomising device radially therefore seal 12 opening 161 is stopped up completely, tobacco tar cannot flow into tobacco tar buffer memory part 13 thus, tobacco tar circulation passage is closed, and the position of the seal 12 that rotating handle 122 is now indicated is defined as the second predeterminated position.As can be seen from Figure 15, rotating handle 122 is now roughly parallel with the axis of illustrated atomising device.

With reference to Figure 16, under this state, via 121 on seal 12 is aimed at completely with the opening 161 on oil removal part 16,, tobacco tar is from oil storage cup 14 flow through each opening 161, via 121, final inflow in tobacco tar buffer memory part 13, the complete conducting of tobacco tar circulation passage, the residing position of oil-deflecting element 20 is now defined as the first desired location.As can be seen from Figure 16, rotating handle 122 is now roughly vertical with the axis of illustrated atomising device,

Can find out that in conjunction with Figure 15-16 rotating handle 122 indicated directions can judge the switch situation of current tobacco tar circulation passage, and rotating handle 122 in the present embodiment sets 90-degree rotation and can realize tobacco tar circulation passage from being opened to the conversion of closing completely completely, rotating handle 122 is with dynamic seal 12 to turn to described the second predeterminated position from described the first predeterminated position.The anglec of rotation that should be appreciated that described setting is not limited to 90 degree, and the anglec of rotation is determined by the relative position between via 162 and opening 121, can be also therefore other angles.

In addition, the utility model also provides a kind of electronic cigarette, comprises atomising device and for described atomising device provides the supply unit of electric power, the atomising device that described atomising device provides with the utility model has identical technical characterictic, does not repeat at this.

In sum, the utility model is by being provided with the oil-deflecting element 20 that can rotate with respect to oil-bearing structure 2 between the oil-bearing structure 2 at atomising device and atomizing component 11, by rotating the relative position between described oil-deflecting element 20 and oil-bearing structure 2, make conducting or not conducting between via 121 and opening 161, and open or close the tobacco tar circulation passage between oil-bearing structure 2 and atomizing component 11, make the position difference of tobacco tar passage along with rotation by controlling the rotation amplitude of oil-deflecting element, the oil pump capacity of tobacco tar also can further be controlled simultaneously; And when oil-deflecting element 20 is during in above-mentioned the second predeterminated position position, can prevent that tobacco tar from flowing out, thereby avoid leakage of oil.Therefore, adopt the atomising device that provides of the utility model not only to overcome tobacco tar seepage that in prior art, tobacco tar passage causes in opening-wide state all the time but also the defect of mouthfeel variation, the designed structure of the utility model can improve the utilization rate of tobacco tar effectively, can also prevent leakage of oil.

By reference to the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to above-mentioned detailed description of the invention; above-mentioned detailed description of the invention is only schematic; instead of 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.

Claims (10)

1. an atomising device, for being combined to form electronic cigarette with supply unit, described atomising device comprises oil-bearing structure (2) and atomizing component (11), described oil-bearing structure (2) is provided with the oil transportation channel for the tobacco tar in described oil-bearing structure (2) being exported to described atomizing component (11), it is characterized in that, between described oil-bearing structure (2) and described atomizing component (11), be provided with the oil-deflecting element (20) that can rotate with respect to described oil-bearing structure (2), described oil-deflecting element (20) is provided with the Oil Guide passage corresponding with described oil transportation channel position, regulate the relative position between described oil-deflecting element (20) and described oil-bearing structure (2) by rotating described oil-deflecting element (20), make conducting or not conducting between described oil transportation channel and described Oil Guide passage, and open or close the tobacco tar circulation passage between oil-bearing structure (2) and atomizing component (11).

2. atomising device according to claim 1, it is characterized in that, described oil-bearing structure (2) comprises that oil storage cup (14) and lid are located at the oil removal part (16) of described oil storage cup (14) openend, on described oil removal part (16), offer the opening (161) as described oil transportation channel, the upper corresponding described opening (161) of described oil-deflecting element (20) offers the via (121) as described Oil Guide passage;

In the time of described atomising device work, by rotating described oil-deflecting element (20) to the first predeterminated position, described via (121) forms described tobacco tar circulation passage with described opening (161), and described tobacco tar circulation passage is for deriving described tobacco tar; In the time rotating described oil-deflecting element (20) to the second predeterminated position, described via (121) mutually staggers described tobacco tar circulation passage is closed with described opening (161).

3. atomising device according to claim 2, it is characterized in that, described atomising device also comprises the outer tube (110) being set on described atomizing component (11), described oil-deflecting element (20) comprises with described oil removal part (16) and is rotationally connected and is fixed on the mount pad (15) of described outer tube (110) one end and be arranged on the seal (12) of described mount pad (15) towards described oil removal part (16) one sides, offers described via (121) on described seal (12); On described seal (12), also offer fixing hole (120), on described mount pad (15), be extruded with the projection (151) suitable with described fixing hole (120).

4. atomising device according to claim 3, it is characterized in that, described mount pad (15) is circumferentially extruded with snapping portion (200) away from axle center, the end face of described oil removal part (16) is provided with the docking slot inserting for one end of described mount pad (15), the circumferential side wall of described docking slot offers the stopper slot (300) suitable with described snapping portion (200), and described snapping portion (200) for rotating in described stopper slot (300).

5. atomising device according to claim 4, is characterized in that, described atomizing component (11) comprises Oil Guide rope (116) and is wrapped in the heating wire (117) on described Oil Guide rope (116); In described mount pad (15), contain respectively the tobacco tar buffer memory part (13) connecting with described seal (12) and described Oil Guide rope (116), the described tobacco tar that described tobacco tar buffer memory part (13) is made of porous materials and transmits for storing described via (121), for described heating wire (117) heating atomization.

6. atomising device according to claim 2, it is characterized in that, described atomising device also comprises the atomization cover (10) being set in described atomizing component (11) and described oil-bearing structure (2), described oil-deflecting element (20) comprises with described oil removal part (16) butt and is formed with the mount pad (15) of a spatial accommodation and is arranged on the seal (12) that can rotate relative to described oil removal part (16) in described spatial accommodation, offers described via (121) on described seal (12).

7. atomising device according to claim 6, it is characterized in that, described atomization cover (10) is provided with the second chute (201) radially extending, described seal (12) is provided with and extends to the outer shifting block (210) of described the second chute (201), the corresponding described shifting block of described mount pad (15) (210) forms first breach (300a) corresponding with described punch position, described shifting block (210) can drive described seal (12) to rotate along described the first breach (300a), the upper corresponding described shifting block (210) of described oil removal part (16) offers the second breach (300b), described the second breach (300b) and common the first chute rotating for described shifting block (210) that forms of described the first breach (300a).

8. atomising device according to claim 2, it is characterized in that, described atomising device also comprises the atomization cover (10) being set in described atomizing component (11) and described oil-bearing structure (2), described oil removal part (16) comprise radially offer along described oil removal part (16) for holding the installing hole (162) of described oil-deflecting element (20), described installing hole (162) connects mutually with opening (161), described oil-deflecting element (20) radially offers described via (121), described oil-deflecting element (20) can rotate relative to described oil removal part (16), opening described in each (161) is axially offering and running through described oil removal part (16) along described oil removal part (16) respectively, described installing hole (162) is radially offered and runs through described oil removal part (16) along described oil removal part (16), and described oil-deflecting element (20) comprises seal (12) and is set in the rotating handle (122) that described seal (12) one end is used for driving described seal (12) rotation.

9. atomising device according to claim 8, it is characterized in that, the first end (12a) of the corresponding described installing hole of described atomization cover (10) (162) offers the through hole (125) being connected with described installing hole (162), described seal comprises conducting portion (123) and operating portion (124), described conducting portion (123) is housed in described installing hole (162), described operating portion (124) is protruding from described through hole (125), described conducting portion (123) radially offers described via (121), by extremely described the first predeterminated position of described rotating handle (122) rotation one preset angles, described via (121) is connected with described opening (161), described preset angles is indicated by described rotating handle (122).

10. an electronic cigarette, comprises atomising device and the supply unit for described atomising device power supply, it is characterized in that, described atomising device is the atomising device as described in claim 1-9 any one.