CN217906298U - Atomizer and aerosol generating device - Google Patents

Abstract

The application discloses atomizer and aerosol generating device, the atomizer includes: a liquid storage bin formed with a liquid storage cavity for storing an aerosol substrate; the atomizing core is movably arranged in the liquid storage bin and is provided with a liquid inlet; the movable piece is connected with the atomizing core; the movable piece is provided with a first movable position enabling the liquid inlet to be communicated with the liquid storage cavity and a second movable position enabling the liquid inlet to be disconnected with the liquid storage cavity. The atomizer can lead the liquid inlet to be communicated or disconnected with the liquid storage cavity by adjusting the position of the movable part, thereby repeatedly realizing the separation and combination of the atomizing core and the aerosol matrix.

Description

Atomizer and aerosol generating device

Technical Field

The utility model relates to an atomizing equipment technical field, concretely relates to atomizer and aerosol generate device.

Background

In the prior art, the aerosol is generally separated from the aerosol substrate in the liquid storage chamber by a silica gel rod, and when a user needs to use the aerosol, the user pulls the silica gel rod to combine the aerosol substrate with the aerosol substrate and heat the aerosol substrate. But the atomizer cannot repeatedly achieve separation and bonding of the atomizing core from the aerosol substrate.

SUMMERY OF THE UTILITY MODEL

The utility model provides an atomizer and aerosol generating device to solve the unable technical problem who realizes the separation and combine of atomizing core and aerosol matrix repeatedly of atomizer.

In order to solve the technical problem, the utility model discloses a first technical scheme be: there is provided a nebulizer, comprising: the liquid storage bin is provided with a liquid storage cavity, and the liquid storage cavity is used for storing aerosol substrates; the atomizing core is movably arranged in the liquid storage bin and is provided with a liquid inlet; the movable piece is connected with the atomizing core; wherein, the moving part has a first movable position which enables the liquid inlet to be communicated with the liquid storage cavity and a second movable position which enables the liquid inlet to be disconnected from the liquid storage cavity.

Optionally, the atomizing core still is formed with the air inlet, the air inlet is in the moving part is located be the open mode when first movable position, the moving part is located be the closed mode when the second movable position.

Optionally, the atomizing core is provided with an atomizing electrode electrically connected to the atomizing core, the atomizing electrode is in a power-on state when the moving member is located at the first movable position, and the moving member is separated from the power-on state when the moving member is located at the second movable position.

Optionally, the liquid storage bin is provided with a first limiting part, and the first limiting part is used for limiting the atomizing core at the second movable position.

Optionally, the atomizing core includes atomizing pipe, drain spare and heating member, atomizing pipe movable install in the stock solution storehouse and with the moving part is connected, just the atomizing pipe is formed with the atomizing passageway and the inlet, the drain spare set up in the atomizing passageway, the heating member set up in on the drain spare.

Optionally, the atomizing pipe is slidably mounted in the liquid storage bin, and the sliding direction of the atomizing pipe is parallel to the extending direction of the atomizing channel.

Optionally, the moving part includes a connection body and an adjustment body, the connection body is connected with the atomization tube, and the adjustment body is connected with the connection body and exposed out of the liquid storage bin.

The utility model discloses a second technical scheme be: there is provided an aerosol generating device comprising a host and an atomizer, the atomizer being connected to the host, the atomizer comprising: a liquid storage bin formed with a liquid storage cavity for storing an aerosol substrate; the atomizing core is movably arranged in the liquid storage bin and is provided with a liquid inlet; the movable piece is connected with the atomizing core; the movable piece is provided with a first movable position enabling the liquid inlet to be communicated with the liquid storage cavity and a second movable position enabling the liquid inlet to be disconnected with the liquid storage cavity.

Optionally, an air inlet is further formed in the atomizing core, the host is provided with an air inlet channel, the movable member is located at the first movable position, and the air inlet is communicated with the air inlet channel; the movable piece is located at the second movable position, and the air inlet is communicated with the air inlet channel in a disconnecting mode.

Optionally, the atomizing core is provided with an atomizing electrode electrically connected with the atomizing core, the host includes a housing and a power supply component, the moving member is located at the first moving position, and the atomizing electrode is electrically connected with the power supply component; the movable piece is located at the second movable position, and the atomizing electrode is electrically disconnected with the power supply assembly.

The beneficial effects of the utility model are that: the atomizer that this application provided can be through adjusting the position of moving part for the inlet communicates or the disconnection communicates with stock solution chamber, thereby realizes the separation and the combination of atomizing core and aerosol matrix repeatedly.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

fig. 1 is a cross-sectional view of a state of an atomizer in accordance with an embodiment of the present invention;

fig. 2 is a cross-sectional view of an alternative embodiment of the atomizer in accordance with the present invention;

fig. 3 is a cross-sectional view of a state of an aerosol generating device according to an embodiment of the present invention;

fig. 4 is a sectional view of another state of the aerosol generating device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The present invention provides an atomizer 100, as shown in fig. 1 and 2, fig. 1 is a cross-sectional view of a state of an atomizer according to an embodiment of the present invention. Fig. 2 is a sectional view of an atomizer in another embodiment of the present invention.

The present invention further provides an aerosol generating device 200, as shown in fig. 3 and 4, fig. 3 is a cross-sectional view of a state of the aerosol generating device according to an embodiment of the present invention. Fig. 4 is a sectional view of another state of the aerosol generating device according to an embodiment of the present invention.

As shown in fig. 1 and fig. 2, the present invention provides an atomizer 100 including a liquid storage chamber 1, an atomizing core 2 and a movable member 3. The liquid storage bin 1 is formed with a liquid storage cavity 10, and the liquid storage cavity 10 is used for storing aerosol matrix. The atomizing core 2 can be movably arranged in the liquid storage bin 1, and the atomizing core 2 is provided with a liquid inlet 20. The moving part 3 is connected with the atomizing core 2 so as to adjust the position of the atomizing core 2. The movable member 3 has a first movable position for communicating the liquid inlet 20 with the liquid storage chamber 10 and a second movable position for disconnecting the liquid inlet 20 from the liquid storage chamber 10. When the movable member 3 is located at the first movable position, the liquid inlet 20 is communicated with the liquid storage cavity 10, so that the aerosol substrate in the liquid storage cavity 10 can flow into the atomizing core 2 through the liquid inlet 20, and the aerosol substrate is combined with the atomizing core 2, so that the atomizing core 2 heats the aerosol substrate, and the aerosol capable of being sucked by a user is generated. When the movable member 3 is located at the second movable position, the liquid inlet 20 is disconnected from the liquid storage chamber 10, so that the aerosol substrate in the liquid storage chamber 10 cannot flow into the atomizing core 2, and the aerosol substrate is separated from the atomizing core 2. Compared with the prior art, the atomizer 100 provided by the application can enable the liquid inlet 20 to be communicated with or disconnected from the liquid storage cavity 10 by adjusting the position of the movable piece 3, so that the separation and combination of the aerosol substrate and the atomizing core 2 are repeatedly realized.

The liquid storage bin 1 is formed with a liquid storage cavity 10, exemplarily, as shown in fig. 1 and fig. 2, the liquid storage bin 1 includes a liquid storage bin body 11, an air duct 12 and a first sealing member 13, the air duct 12 and the first sealing member 13 are respectively connected with the liquid storage bin body 11, and the liquid storage bin body 11, the air duct 12 and the first sealing member 13 enclose to form the liquid storage cavity 10. It will be appreciated that the reservoir body 11 may be formed integrally with the airway tube 12.

The atomizing core 2 is movably installed in the liquid storage chamber 1, and for example, as shown in fig. 1 and fig. 2, the atomizing core 2 includes an atomizing pipe 21, a liquid guiding member 22, and a heating member 23. The atomizing pipe 21 is slidably mounted on the liquid storage tank body 11 and the air duct 12. The atomizing pipe 21 is hollow and forms an atomizing channel 210, and the sliding direction of the atomizing pipe 21 is parallel to the extending direction of the atomizing channel 210. The side wall of the atomizing pipe 21 is formed with a liquid inlet 20 communicating with the atomizing passage 210. A liquid-conducting member 22 is arranged in the nebulization channel 210, the liquid-conducting member 22 being intended to absorb aerosol substrate flowing in from the liquid inlet 20. A heating member 23 is disposed on the fluid-conducting member 22, the heating member 23 being adapted to heat the aerosol substrate absorbed by the fluid-conducting member 22 to produce an aerosol for inhalation by a user.

The air duct 12 is formed with an air outlet channel 120, the air outlet channel 120 is communicated with the atomization channel 210, and the aerosol generated in the atomization channel 210 can be discharged out of the atomizer 100 through the air outlet channel 120 for a user to inhale.

The liquid storage bin 1 is provided with a first limiting part 14, the first limiting part 14 is used for limiting the atomizing core 2 at the second movable position, exemplarily, as shown in fig. 1, the air duct 12 is provided with the first limiting part 14, and the first limiting part 14 is used for limiting the atomizing pipe 21 at the second movable position.

Still be equipped with the second sealing member between atomizing pipe 21 and liquid storage storehouse body 11 and the air duct 12 respectively to prevent that the aerosol matrix in the liquid storage chamber 10 from flowing out from the clearance between atomizing pipe 2 and liquid storage storehouse body 11 and the air duct 12.

The atomizing core 2 is formed with an air inlet 24, and illustratively, as shown in fig. 1 and 2, the atomizing tube 21 is formed with an air inlet 24, and the air inlet 24 communicates with the atomizing passage 210. When the movable member 3 is located at the first movable position, the air inlet 24 is in an open state, and the external air can flow into the atomizing channel 210 through the air inlet 24 so as to blow the aerosol in the atomizing channel 210 to the air outlet channel 120. When the movable member 3 is located at the second movable position, the air inlet 24 is in a closed state, so that the outside air cannot flow into the atomization passage 20 through the air inlet 24.

Further, the air inlet direction of the air inlet 24 is arranged to intersect the extending direction of the atomizing channel 210, i.e. the air inlet 24 is located on the side surface of the atomizing tube 21. When the movable member 3 is in the first active position, i.e. when the atomiser 100 is in use, aerosol substrate and/or condensate dripping from within the atomising channel 210 cannot flow out through the air inlet 24, thereby preventing the aerosol substrate and/or condensate from flowing out of the atomising tube 21, so that no leakage of the atomiser 100 occurs.

The movable member 3 is connected to the atomizing core 2, for example, as shown in fig. 1 and fig. 2, the movable member 3 includes a connecting body 31 and an adjusting body 32, the connecting body 31 is connected to the atomizing pipe 21, and the adjusting body 32 is connected to the connecting body 31 and exposed outside the liquid storage cabin body 11.

As shown in fig. 2 and 4, when the atomizer 100 is in transportation or not in use, a user may push the adjusting body 32 to push the movable member 3 to the second movable position, so that the liquid inlet 20 is disconnected from the liquid storage cavity 10, thereby separating the atomizing wick 2 from the aerosol substrate and preventing the aerosol substrate in the liquid storage cavity 10 from leaking outwards.

When the atomizer 100 is to be used, as shown in fig. 1 and 3, a user may push the adjustment body 32 to push the movable member 3 to the first movable position, so that the liquid inlet 20 is communicated with the liquid storage chamber 10, thereby combining the atomizing wick 2 with the aerosol substrate, so that the atomizing wick 2 heats the aerosol substrate.

In summary, the user can push the adjusting body 32 to repeatedly switch the movable member 3 between the first active position and the second active position, so as to repeatedly separate and combine the atomizing core 2 and the aerosol substrate.

The utility model provides a pair of aerosol generating device 200 includes host computer 300 and as above atomizer 100, atomizer 100 is connected with host computer 300. Illustratively, as shown in fig. 3 and 4, the nebulizer 100 is fixedly connected to the host 300, that is, the nebulizer 100 and the host 300 are an integral structure. It is understood that in other embodiments, the atomizer 100 can be detachably mounted to the main body 300 by screwing, clipping, or magnetic attraction.

Illustratively, the main unit 300 includes a housing 4 and a power supply assembly 5 disposed in the housing 4, the housing 4 being connected to the nebulizer 100.

The main body 300 is provided with an air inlet channel 6, illustratively, the housing 4 is formed with the air inlet channel 6, when the movable element 3 is in the first movable position, the air inlet 24 is in an open state and is communicated with the air inlet channel 6, and the external air can flow into the atomizing channel 210 through the air inlet channel and the air inlet 24 in sequence, so as to blow the aerosol in the atomizing channel 210 to the air outlet channel 120. When the movable member 3 is in the second movable position, the air inlet 24 is in a closed state and is disconnected from the air inlet channel 6, so that the external air cannot flow into the atomization channel 210 through the air inlet channel 6 and the air inlet 24.

The atomizing core 2 is provided with an atomizing electrode 7 electrically connected to the atomizing core 2. Illustratively, as shown in fig. 1 to 4, the atomizing electrode 7 is provided on the atomizing tube 21 and electrically connected to the heating member 23. When the moving member 3 is in the first active position, the atomizing electrode 7 is electrically connected to the power supply element 5, i.e., the atomizing electrode 7 is in an energized state when the moving member 3 is in the first active position, so as to supply power to the heating element 23. When the moving member 3 is located at the second active position, the atomizing electrode 7 is electrically disconnected from the power supply assembly 5, i.e., the atomizing electrode 7 is disconnected from the energized state when the moving member 3 is located at the first active position. This prevents misuse by children, and thus enables the aerosol-generating device 200 to have a child-lock function.

The power supply module 5 includes a battery 51, a circuit board 52 and a main electrode 53, wherein the circuit board 52 is electrically connected to the battery 51 and the main electrode 53, and the main electrode 53 is electrically connected to or disconnected from the atomizing electrode 5. The battery 51 may be a rechargeable battery or a non-rechargeable battery, and is not limited in this embodiment.

It should be noted that the main electrode 53 may be a conductive pogo pin structure, and the inflow amount of the aerosol substrate from the liquid storage chamber 10 into the atomizing channel 210 gradually decreases when the movable member 3 moves from the first active position to the second active position. When the main electrode 53 is in the conductive pogo pin structure, the main electrode 53 is always electrically connected to the atomizing electrode 7 when the moving member 3 moves from the first moving position to the second moving position, and only when the moving member 3 is located at the second moving position, the main electrode 53 is electrically disconnected from the atomizing electrode 7. Therefore, the aerosol generating concentration can be controlled by controlling the inflow of the aerosol substrate, so that a user can adjust the aerosol generating concentration according to the preference of the user, and the user experience is improved.

Compared with the prior art, the atomizer 100 that this application provided is through with atomizing core 2 movably mounting in stock solution storehouse 1, and connect moving part 3 in atomizing core 2, when moving part 3 was located first active position, inlet 20 and stock solution chamber 10 intercommunication, air inlet 24 were the open mode, and atomizing electrode 7 is the circular telegram state. When the movable member 2 is located at the second movable position, the liquid inlet 20 is disconnected from the liquid storage chamber 10, the air inlet 24 is in a closed state, and the atomizing electrode 7 is disconnected from the power-on state. The movable piece 3 can be repeatedly switched between the first movable position and the second movable position, so that the atomization core 2 and the aerosol substrate can be repeatedly separated and combined, misuse of children can be prevented, and the child-resistant aerosol device has a child-resistant function.

The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention can be used in other related technical fields, directly or indirectly, or in the same way as the present invention.

Claims (10)

1. An atomizer, comprising:

the liquid storage bin is provided with a liquid storage cavity, and the liquid storage cavity is used for storing aerosol substrates;

the atomizing core is movably arranged in the liquid storage bin and is provided with a liquid inlet;

the movable piece is connected with the atomizing core;

the movable piece is provided with a first movable position enabling the liquid inlet to be communicated with the liquid storage cavity and a second movable position enabling the liquid inlet to be disconnected with the liquid storage cavity.

2. The atomizer of claim 1, wherein said atomizing core is further formed with an air inlet opening, said air inlet opening being in an open state when said movable member is in said first active position and being in a closed state when said movable member is in said second active position.

3. The atomizer according to claim 1, wherein said atomizing core is provided with an atomizing electrode electrically connected to said atomizing core, said atomizing electrode being in an energized state when said movable member is in said first active position and being out of said energized state when said movable member is in said second active position.

4. The atomizer according to claim 1, wherein said reservoir is provided with a first retaining portion for retaining said atomizing core in said second movable position.

5. The atomizer according to claim 1, wherein the atomizing core comprises an atomizing pipe, a liquid guiding member and a heating member, the atomizing pipe is movably mounted in the reservoir and connected to the movable member, the atomizing pipe forms an atomizing channel and the liquid inlet, the liquid guiding member is disposed in the atomizing channel, and the heating member is disposed on the liquid guiding member.

6. The nebulizer of claim 5, wherein the nebulizing tube is slidably mounted to the reservoir, and a sliding direction of the nebulizing tube is parallel to an extending direction of the nebulizing channel.

7. The atomizer according to claim 5, wherein said movable member comprises a connecting body and an adjusting body, said connecting body is connected to said atomizing tube, and said adjusting body is connected to said connecting body and exposed to said reservoir.

8. An aerosol generating device comprising a host and an atomizer, the atomizer being connected to the host, the atomizer comprising:

the liquid storage bin is provided with a liquid storage cavity, and the liquid storage cavity is used for storing aerosol substrates;

the atomizing core is movably arranged in the liquid storage bin and is provided with a liquid inlet;

the movable piece is connected with the atomizing core;

the movable piece is provided with a first movable position enabling the liquid inlet to be communicated with the liquid storage cavity and a second movable position enabling the liquid inlet to be disconnected with the liquid storage cavity.

9. An aerosol generating device according to claim 8, wherein the atomizing core is further formed with an air inlet, the main body is provided with an air inlet passage, the movable member is located at the first active position, and the air inlet is communicated with the air inlet passage; the movable piece is located at the second movable position, and the air inlet is communicated with the air inlet channel in a disconnecting mode.

10. An aerosol generating device according to claim 8, wherein the atomizing wick is provided with an atomizing electrode electrically connected to the atomizing wick, the main body comprises a housing and a power supply component, the movable member is located in the first active position, and the atomizing electrode is electrically connected to the power supply component; the moving piece is located at the second moving position, and the atomizing electrode is electrically disconnected with the power supply component.

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