CN216568371U - Atomizer, host computer and aerosol generating device - Google Patents

Abstract

The embodiment of the utility model discloses an atomizer, a host and an aerosol generating device, wherein the atomizer comprises an atomizer main body and a conductive assembly connected with the atomizer main body, the conductive assembly comprises a first conductive structure and a second conductive structure, the host comprises a host body and a power supply assembly connected with the host body, the power supply assembly comprises a first power supply structure and a second power supply structure, the first power supply structure is detachably connected with the first conductive structure, the second power supply structure is detachably connected with the second conductive structure, so that the conductive assembly is electrically connected with the power supply assembly, the stability of the electrical connection of the conductive assembly and the power supply assembly can be ensured, and further, an atomization core in the atomizer can stably take electricity from a battery in the host.

Description

Atomizer, host computer and aerosol generating device

Technical Field

The utility model relates to the technical field of aerosol generation, in particular to an atomizer, a host and an aerosol generating device.

Background

The aerosol generating device may generate an aerosol from an aerosol substrate by atomization or the like for inhalation by a user.

The existing aerosol generating device comprises an atomizer and a host, wherein the atomizer is assembled on the host, so that an atomizing core on the atomizer can get electricity from a battery of the host, and under the ordinary condition, the atomizing core of the atomizer is unstable in work and poor in user experience due to the fact that the stability of an electric connection structure between the atomizer and the host is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an atomizer, a host and an aerosol generating device, and aims to solve the technical problems that the existing atomizer and the host are poor in stability of an electric connection structure and unstable in work of an atomizing core of the atomizer.

In a first aspect, the present invention provides an atomiser comprising: the atomizer main part and with the conductive component that the atomizer main part is connected, conductive component includes first conductive structure and second conductive structure, first conductive structure is used for can dismantling with first power supply structure and is connected, second conductive structure is used for can dismantling with second power supply structure and is connected.

In one embodiment, the first conductive structure is a cylindrical member, and the second conductive structure is coaxially disposed with the first conductive structure.

In one embodiment, the first conductive structure is provided with a cavity, at least a part of the second conductive structure is arranged in the cavity, and the second conductive structure comprises a connecting end protruding out of the cavity;

the outer wall of the first conductive structure is provided with a first external thread, and the outer wall of the connecting end is provided with a second external thread; or the outer wall of the first conductive structure is provided with a first elastic bulge, and the outer wall of the connecting end is provided with a second elastic bulge.

In one embodiment, the conductive assembly further comprises a spacer disposed between the first conductive structure and the second conductive structure and configured to electrically insulate the first conductive structure from the second conductive structure.

In a second aspect, the present invention further provides a host, including: the host computer body and with the power supply subassembly of host computer body coupling, the power supply subassembly includes first power supply structure and second power supply structure, first power supply structure is used for can dismantling with first conducting structure and is connected, second power supply structure is used for can dismantling with second conducting structure and is connected.

In one embodiment, the first power supply structure is provided with a first connecting groove, the second power supply structure is arranged in the first connecting groove, and the second power supply structure is provided with a second connecting groove which is coaxially arranged with the first connecting groove;

a first internal thread is arranged on the inner wall of the first connecting groove, and a second internal thread is arranged on the inner wall of the second connecting groove; or the inner wall of the first connecting groove is provided with a first elastic groove, and the inner wall of the second connecting groove is provided with a second elastic groove.

In a third aspect, the present invention also provides an aerosol generating device comprising:

the atomizer of any preceding embodiment, further comprising an atomizing core electrically connected to the conductive assembly; and

the host computer of any one of the above embodiments, further comprising a battery electrically connected to the power supply assembly;

the first conductive structure is detachably connected with the first power supply structure, and the second conductive structure is detachably connected with the second power supply structure, so that the conductive assembly is electrically connected with the power supply assembly, and the atomization core can take electricity from the battery.

In one embodiment, the power supply assembly further includes an elastic member, and the elastic member is elastically connected to the second power supply structure and is configured to push the second power supply structure to elastically abut against the second conductive structure.

In one embodiment, the host comprises a first mounting surface and a protruding structure protruding out of the first mounting surface, the atomizer comprises a second mounting surface arranged opposite to the first mounting surface, and the atomizer is recessed from the second mounting surface in a direction away from the first mounting surface to form a groove structure;

the protruding structure is arranged on the power supply assembly in a surrounding mode, and the groove structure is arranged on the conductive assembly in a surrounding mode and matched with the protruding structure.

In one embodiment, the size of the outer wall of the convex structure is gradually reduced from the first mounting surface to the second mounting surface so as to form a guide surface on the outer wall of the convex structure, and the guide surface matched with the guide surface is arranged on the concave groove structure; when the atomizer is assembled with the host machine, the guide surface can be matched with the guide surface to guide the groove structure to be sleeved on the protrusion structure; and/or

Be equipped with the breach on the protruding structure, work as first power supply structure is equipped with first connecting groove, the breach intercommunication first connecting groove and exterior space.

The embodiment of the utility model has the following beneficial effects:

by adopting the atomizer, the host and the aerosol generating device, when the first conductive structure is detachably connected with the first power supply structure and the second conductive structure is detachably connected with the second power supply structure, the conductive assembly is electrically connected with the power supply assembly, the stability of the electrical connection between the conductive assembly and the power supply assembly is ensured, and the atomizing core in the atomizer can stably take electricity from the battery of the host.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

figure 1 is a schematic view of an aerosol generating device in one embodiment.

Fig. 2 is another perspective view of the aerosol generating device shown in fig. 1.

Figure 3 is a cut-away view of an aerosol generating device in an embodiment in an isolated state.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Figure 5 is a cut-away view of an aerosol generating device in another embodiment in an isolated state.

Fig. 6 is an enlarged schematic view of a portion B in fig. 5.

Fig. 7 is a schematic view of an atomizer in the aerosol generating device of fig. 5.

Reference numerals: 10. an atomizer; 20. a host;

100. an atomizer body; 110. a second mounting surface; 120. a groove structure; 121. a guide surface;

200. a conductive component; 210. a first conductive structure; 211. a cavity; 212. a first external thread; 220. a second conductive structure; 221. a connecting end; 222. a second external thread; 230. a spacer;

300. a host body; 310. a first mounting surface; 320. a raised structure; 321. a guide surface;

400. a power supply assembly; 410. a first power supply structure; 411. a first connecting groove; 412. a first internal thread; 420. a second power supply structure; 421. a second connecting groove; 422. a second internal thread; 430. an elastic member; 440. an insulating member; 450. a first seal ring; 460. a second seal ring;

510. a battery; 520. a fixed mount; 530. an electrode holder; 540. an electrode spring; 550. a first electrode sheet; 560. a second electrode sheet; 570. a decorative sheet; 580. decorating a bracket; 590. a third seal ring;

610. a main board; 620. a display screen; 630. pressing a key; 640. a lens; 650. a gas regulating ring; 660. and a fourth seal ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The present invention provides an aerosol-generating device that can generate an aerosol from an aerosol substrate by atomization or the like for a user to inhale.

Referring to fig. 1 to 4, an aerosol generating device according to an embodiment includes an atomizer 10 and a host 20, where the atomizer 10 includes an atomizer body 100 and a conductive assembly 200 connected to the atomizer body 100, the conductive assembly 200 includes a first conductive structure 210 and a second conductive structure 220, and the first conductive structure 210 and the second conductive structure 220 serve as positive and negative electrodes of the conductive assembly 200 and are used for taking electricity.

In this embodiment, the main body 20 includes a main body 300 and a power supply assembly 400 connected to the main body 300, the power supply assembly 400 includes a first power supply structure 410 and a second power supply structure 420, the first power supply structure 410 and the second power supply structure 420 serve as positive and negative electrodes of the power supply assembly 400 for supplying power, and the conductive assembly 200 and the power supply assembly 400 form an adaptor to realize electrical conduction between the main body 20 and the atomizer 10.

Further, the first power supply structure 410 is detachably connected to the first conductive structure 210, the second power supply structure 420 is detachably connected to the second conductive structure 220, the conductive assembly 200 can be electrically connected to the power supply assembly 400, so that the conductive assembly 200 can obtain power from the power supply assembly 400, and the stability of the electrical connection between the conductive assembly 200 and the power supply assembly 400 can be ensured.

In an embodiment, the atomizer 10 further includes an atomizing core electrically connected to the conductive assembly 200, and the main body 20 further includes a battery 510 electrically connected to the power supply assembly 400, because the conductive assembly 200 is electrically connected to the power supply assembly 400, the atomizing core can take power from the battery 510, thereby ensuring that the atomizing core can stably take power from the battery 510.

In one embodiment, with continued reference to fig. 4, the first conductive structure 210 is a cylindrical member, and the second conductive structure 220 is disposed coaxially with the first conductive structure 210. The first power supplying structure 410 is provided with a first connecting slot 411, the second power supplying structure 420 is disposed in the first connecting slot 411, and the second power supplying structure 420 is provided with a second connecting slot 421 coaxially disposed with the first connecting slot 411. The second conductive structure 220 may be a cylinder or a pillar.

The electrical connection of the first conductive structure 210 with the first supply structure 410 and the electrical connection of the second conductive structure 220 with the second supply structure 420 may be achieved by assembling the first conductive structure 210 with the first connection slot 411 and the second conductive structure 220 with the second connection slot 421.

It will be appreciated that the nebulizer 10 of this embodiment can only be installed in the host 20 of this embodiment since the detachable connection of the first conductive structure 210 to the first power supply structure 410 is achieved through a separate mating structure, and the detachable connection of the second conductive structure 220 to the second power supply structure 420 is achieved through a separate mating structure.

In the present embodiment, the first conductive structure 210 has various embodiments of electrical connection with the first power supply structure 410, the second conductive structure 220, and the second power supply structure 420.

In a preferred embodiment, referring to fig. 4, the first conductive structure 210 has a cavity 211, at least a portion of the second conductive structure 220 is disposed in the cavity 211, the second conductive structure 220 includes a connecting end 221 protruding from the cavity 211, the connecting end 221 can be used as a center electrode, the outer wall of the first conductive structure 210 is provided with a first external thread 212, the outer wall of the connecting end 221 is provided with a second external thread 222, the inner wall of the first connecting groove 411 is provided with a first internal thread 412, and the inner wall of the second connecting groove 421 is provided with a second internal thread 422.

When the first external thread 212 is capable of being threadedly engaged with the first internal thread 412 to electrically connect the first conductive structure 210 with the first power supply structure 410, and the second external thread 222 is capable of being threadedly engaged with the second internal thread 422 to electrically connect the second conductive structure 220 with the second power supply structure 420, the first conductive structure and the second conductive structure are threadedly engaged, so that on one hand, the detachable connection stability and reliability of the conductive assembly 200 and the power supply assembly 400 can be improved, and the electrical conduction between the conductive assembly 200 and the power supply assembly 400 can be more stable, and on the other hand, the threaded engagement can increase the electrical contact area between the conductive assembly 200 and the power supply assembly 400, and further, a larger current can pass between the conductive assembly 200 and the power supply assembly 400. Specifically, the first external thread 212 and the first internal thread 412 may be 510 interface mating threads.

It is understood that, if the second conductive structure 220 is not provided with a screw structure, since the second conductive structure 420 can conduct electricity, the second conductive structure 220 can be inserted into the second connection groove 421 and abut against the bottom wall surface of the second connection groove 421, and thus, the electrical connection can be achieved.

In order to solve the problem that the electric connection mode through elastic butt joint is poor in electric contact, the electric connection stability and reliability of the threaded connection structure in the embodiment are better.

In another embodiment, the first conductive structure 210 has a cavity 211, at least a portion of the second conductive structure 220 is disposed in the cavity 211, and the second conductive structure 220 includes a connecting terminal 221 protruding from the cavity 211; the outer wall of the first conductive structure 210 is provided with a first elastic protrusion, the outer wall of the connection end 221 is provided with a second elastic protrusion, the inner wall of the first connection groove 411 is provided with a first elastic groove, and the inner wall of the second connection groove 421 is provided with a second elastic groove.

The first elastic protrusion can be elastically abutted with the first elastic groove to realize the electric connection of the first conductive structure 210 and the first power supply structure 410, the second elastic protrusion can be elastically abutted with the second elastic groove to realize the electric connection of the second conductive structure 220 and the second power supply structure 420, and the limit matching of the elastic abutment can improve the stability and reliability of the detachable connection of the conductive assembly 200 and the power supply assembly 400, so that the electric conduction of the conductive assembly 200 and the power supply assembly 400 is more stable.

Of course, in other embodiments, the first conductive structure 210 and the first power supply structure 410, the second conductive structure 220 and the second power supply structure 420 may have other connection forms, so that the first conductive structure 210 and the first power supply structure 410 are detachably connected, and the second conductive structure 220 and the second power supply structure 420 are detachably connected, so that the reliability of the mechanical connection and the stability of the electrical connection between the conductive assembly 200 and the power supply assembly 400 are enhanced by two detachable connection structures.

In one embodiment, with continued reference to fig. 4, the conductive element 200 further includes a spacer 230, wherein the spacer 230 is disposed between the first conductive structure 210 and the second conductive structure 220 and is used to electrically insulate the first conductive structure 210 from the second conductive structure 220, so as to ensure the stability and reliability of the electrical conduction of the conductive element 200.

In an embodiment, the power supply assembly 400 further includes an elastic member 430, and the elastic member 430 is elastically connected to the second power supply structure 420 and is used for pushing the second power supply structure 420 to elastically abut against the second conductive structure 220.

When the atomizer 10 is assembled with the main body 20, the second power supply structure 420 can elastically abut against the second conductive structure 220, so that the stability and reliability of electrical conduction between the second power supply structure 420 and the second conductive structure 220 can be enhanced.

Further, when the second external thread 222 of the second conductive structure 220 is in threaded engagement with the second internal thread 422 of the second power supply structure 420, the elastic member 430 elastically pushes the second power supply structure 420, so that the tightness of the threaded connection can be ensured, and the stability of electrical conduction between the second conductive structure 220 and the second power supply structure 420 can be further improved.

In an embodiment, referring to fig. 5 to 7, the host 20 includes a first mounting surface 310 and a protrusion structure 320 protruding from the first mounting surface 310, the atomizer 10 includes a second mounting surface 110 disposed opposite to the first mounting surface 310, and the atomizer 10 is recessed from the second mounting surface 110 in a direction away from the first mounting surface 310 to form a groove structure 120; the protrusion structure 320 is disposed around the power supply assembly 400, and the groove structure 120 is disposed around the conductive assembly 200 and is adapted to the protrusion structure 320.

By the arrangement of the protrusion structure 320, condensed atomized liquid can be prevented from entering the power supply assembly 400 from the outside of the host machine through the gap between the first mounting surface 310 and the second mounting surface 110. Specifically, in order to facilitate the rotation of the atomizer 10 on the device mounting body 20 by a screw structure, the protrusion structure 320 and the groove structure 120 are both ring structures.

In an embodiment, with continued reference to fig. 6, the size of the outer wall of the protruding structure 320 gradually decreases from the first mounting surface 310 to the second mounting surface 110 to form a guiding surface 321 on the outer wall of the protruding structure 320, and the guiding surface 121 adapted to the guiding surface 321 is disposed on the recessed groove structure 120; when the atomizer 10 is assembled with the host 20, the guiding surface 321 can cooperate with the guiding surface 121 to guide the groove structure 120 to be sleeved on the protrusion structure 320, so as to further facilitate the assembly of the atomizer 10 with the host 20.

Specifically, the protrusion structure 320 and the first power supply structure 410 may be integrally formed, and are conductive members, the groove structure 120 may be disposed on the first conductive structure 210, and the wall surface of the groove structure 120 may be conductive, and when the protrusion structure 320 abuts against the wall surface of the groove structure 120, the first conductive structure 210 and the first power supply structure 410 may be electrically connected.

In one embodiment, the protrusion structure 320 is provided with a gap, and when the first power supply structure 410 is provided with the first connection slot 411, the gap communicates the cavity 211 and the external space, and the gas in the first connection slot 411 can be exhausted to the external space through the gap.

It can be understood that, during the process of assembling the first conductive structure 210 into the first connection slot 411 of the first power supply structure 410, due to the arrangement of the notch, the gas in the first connection slot 411 can be discharged more easily, so as to facilitate the assembling process.

Meanwhile, when the first conductive structure 210 is detached from the first connection slot 411 of the first power supply structure 410, the notch is more favorable for detaching the first conductive structure 210 from the first power supply structure 410, so that the first conductive structure 210 can be prevented from leaving the first connection slot 411 due to negative pressure.

In an embodiment, with continued reference to fig. 4, the power supply assembly 400 further includes an insulating member 440, where the insulating member 440 is disposed between the first power supply structure 410 and the second power supply structure 420 and is used to electrically insulate the first power supply structure 410 from the second power supply structure 420, so as to ensure stability and reliability of power supply of the power supply assembly 400.

Further, in this embodiment, the power supply assembly 400 further includes a first sealing ring 450 and a second sealing ring 460, the first sealing ring 450 is disposed between the insulating member 440 and the inner wall of the first connection groove 411, and the second sealing ring 460 is disposed between the insulating member 440 and the outer wall of the second power supply structure 420. Through the arrangement of the first sealing ring 450 and the second sealing ring 460, the atomized liquid can be prevented from entering the inside of the host.

In one embodiment, the main unit 20 further includes a fixing frame 520, and the battery 510 is disposed on the fixing frame 520 to implement the installation of the battery 510.

Further, the main unit 20 further includes an electrode holder 530, an electrode spring 540, and a first electrode plate 550, one end of the electrode holder 530 is electrically connected to the battery 510 through the electrode spring 540 and the first electrode plate 550, the other end is provided with an elastic member 430, and the electrode spring 540 elastically connects the electrode holder 530 and the electrode plate to ensure stability of the electrical connection.

Further, the main body 20 further includes a second electrode tab 560, the second electrode tab 560 electrically connects the battery 510 and the first power supply structure 410, the second electrode tab 560 is mounted on a bottom case of the battery, and the bottom case of the battery can be opened to replace the battery 510.

In an embodiment, referring to fig. 3, the host 20 further includes a motherboard 610, a display 620 and a button 630, wherein the button 630 can be pressed by a user to transmit a control command to the motherboard 610, and the display 620 can display the operating status of the nebulizer generating device. The buttons 630 include at least a toggle button 630.

Further, the display screen 620 is covered with a lens 640 to protect the display surface of the display screen 620.

Further, the main unit 20 further includes a decoration sheet 570 and a decoration bracket 580, and the decoration sheet 570 and the decoration bracket 580 are connected to the fixing frame 520.

Specifically, the main unit 20 further includes a third sealing ring 590, and the third sealing ring 590 is disposed between the decorative bracket 580 and the first power supply structure 410.

In an embodiment, the atomizer main body 100 includes the atomizing structure and transfers the gas ring 650, and promote to transfer the gas ring 650 can change the size of air inlet, and then realize transferring the gas function, in the use of aerosol generating device, transfer the gas ring 650 and can let out partial atomized liquid, because the setting of protruding structure 320, can avoid atomized liquid to get into in the host computer.

Further, the atomizer body 100 further includes a fourth sealing ring 660, and the fourth sealing ring 660 is disposed between the atomizing structure and the air adjusting ring 650.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the utility model is not limited by the scope of the appended claims.

Claims (10)

1. An atomizer, comprising: the atomizer main part and with the conductive component that the atomizer main part is connected, conductive component includes first conductive structure and second conductive structure, first conductive structure is used for can dismantling with first power supply structure and is connected, second conductive structure is used for can dismantling with second power supply structure and is connected.

2. A nebulizer as claimed in claim 1, wherein the first conductive structure is a cylindrical member and the second conductive structure is arranged coaxially with the first conductive structure.

3. A nebulizer as claimed in claim 2, wherein the first conductive structure defines a cavity, at least part of the second conductive structure being disposed in the cavity, the second conductive structure including a connecting end protruding from the cavity;

the outer wall of the first conductive structure is provided with a first external thread, and the outer wall of the connecting end is provided with a second external thread; or the outer wall of the first conductive structure is provided with a first elastic bulge, and the outer wall of the connecting end is provided with a second elastic bulge.

4. The nebulizer of claim 3, wherein the conductive assembly further comprises a spacer disposed between the first conductive structure and the second conductive structure and configured to electrically insulate the first conductive structure from the second conductive structure.

5. A host, comprising: the host computer body and with the power supply subassembly of host computer body coupling, the power supply subassembly includes first power supply structure and second power supply structure, first power supply structure is used for can dismantling with first conducting structure and is connected, second power supply structure is used for can dismantling with second conducting structure and is connected.

6. The mainframe according to claim 5, wherein the first power supply structure is provided with a first connection slot, the second power supply structure is provided in the first connection slot, and the second power supply structure is provided with a second connection slot coaxially provided with the first connection slot;

a first internal thread is arranged on the inner wall of the first connecting groove, and a second internal thread is arranged on the inner wall of the second connecting groove; or the inner wall of the first connecting groove is provided with a first elastic groove, and the inner wall of the second connecting groove is provided with a second elastic groove.

7. An aerosol generating device, comprising:

the atomizer of any one of claims 1-4, further comprising an atomizing core in electrical communication with the electrically conductive assembly; and

the host of claim 5 or 6, further comprising a battery electrically connected to the power supply component;

the first conductive structure is detachably connected with the first power supply structure, and the second conductive structure is detachably connected with the second power supply structure, so that the conductive assembly is electrically connected with the power supply assembly, and the atomization core can take electricity from the battery.

8. An aerosol generating device according to claim 7, wherein the power supply assembly further comprises a resilient member resiliently connected to the second power supply structure and adapted to urge the second power supply structure into resilient abutment with the second electrically conductive structure.

9. An aerosol generating device according to claim 7, wherein the body further comprises a first mounting surface and a raised structure protruding from the first mounting surface, the atomizer further comprising a second mounting surface disposed opposite the first mounting surface, the atomizer being recessed from the second mounting surface in a direction away from the first mounting surface to form a recessed structure;

the protruding structure is arranged on the power supply assembly in a surrounding mode, and the groove structure is arranged on the conductive assembly in a surrounding mode and matched with the protruding structure.

10. An aerosol generating device according to claim 9, wherein the outer wall of the projection structure tapers in size from the first mounting surface to the second mounting surface to form a guide surface on the outer wall of the projection structure, and the recess structure is provided with a guide surface adapted to the guide surface; when the atomizer is assembled with the host machine, the guide surface can be matched with the guide surface to guide the groove structure to be sleeved on the protrusion structure; and/or

Be equipped with the breach on the protruding structure, work as first power supply structure is equipped with first connecting groove, the breach intercommunication first connecting groove and exterior space.

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