CN219288727U - Aerosol generating device - Google Patents
Aerosol generating device Download PDFInfo
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- CN219288727U CN219288727U CN202223468450.2U CN202223468450U CN219288727U CN 219288727 U CN219288727 U CN 219288727U CN 202223468450 U CN202223468450 U CN 202223468450U CN 219288727 U CN219288727 U CN 219288727U
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- liquid storage
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- generating device
- aerosol
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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Abstract
The utility model discloses an aerosol generating device, which comprises a liquid storage bin and a spacing device, wherein the liquid storage bin is arranged in a shell and is connected with an atomization assembly; the spacing device is arranged in the liquid storage bin and divides the liquid storage bin into a first liquid storage cavity and a second liquid storage cavity, the first liquid storage cavity is used for directly storing aerosol matrixes, the second liquid storage cavity is filled with liquid storage cotton and is connected with the atomization assembly, and the spacing device is driven to move so as to realize the communication or separation of the first liquid storage cavity and the second liquid storage cavity. The utility model adopts the structural design of the double liquid storage cavities and the double liquid storage mode of directly storing aerosol matrixes and storing aerosol matrixes through liquid storage cotton, realizes larger liquid storage quantity, and controls the communication and the separation of the two liquid storage cavities by arranging the spacing device between the two liquid storage cavities so as to control the liquid storage quantity in the second liquid storage cavity, thereby improving the taste of the atomized aerosol.
Description
Technical Field
The utility model belongs to the technical field of aerosol generation, and particularly relates to an aerosol generating device.
Background
An aerosol generating device is an electronic device capable of atomizing an aerosol substrate to generate an aerosol for inhalation by a user. The existing aerosol generating device generally stores aerosol matrixes by filling liquid storage cotton, and the method has the advantages of effectively preventing the aerosol matrixes from leaking out; however, compared with the aerosol matrix stored directly, the liquid storage amount is small (the liquid storage cotton can only store about 75% of liquid), and the atomized aerosol has poor taste after being sucked, and has dry taste.
Disclosure of Invention
The utility model provides an aerosol generating device, which aims to solve the defects of single liquid storage mode, poor sucking taste and the like in the technical scheme.
In order to solve the technical problems, the utility model discloses an aerosol generating device, which comprises a shell and an atomization assembly, and the aerosol generating device further comprises:
the liquid storage bin is arranged in the shell and is connected with the atomization assembly;
the spacing device is arranged in the liquid storage bin and divides the liquid storage bin into a first liquid storage cavity and a second liquid storage cavity, the first liquid storage cavity is used for directly storing aerosol matrixes, the second liquid storage cavity is filled with liquid storage cotton and is connected with the atomizing assembly, and the spacing device is driven to move so as to realize the communication or separation of the first liquid storage cavity and the second liquid storage cavity.
Further, the spacer device comprises two spacers which are mutually abutted, a plurality of through holes are formed in each of the two spacers, and the other spacer which is opposite to one spacer is driven to move relatively, so that when the through holes in the two spacers are aligned, the first liquid storage cavity is communicated with the second liquid storage cavity, and when the through holes in the two spacers are staggered, the first liquid storage cavity is blocked from the second liquid storage cavity.
Further, the two spacers are concentric cylinders arranged inside and outside, the outer side of each cylinder is provided with a first liquid storage cavity, the inner side of each cylinder is provided with a second liquid storage cavity, and the side wall of each cylinder is provided with a plurality of through holes, wherein one cylinder rotates relative to the other cylinder so that the through holes on the two cylinders are aligned or misplaced.
Further, the through holes are uniformly spaced and distributed on the side wall of the cylinder in an array.
Further, the shell comprises a movable part, a cover body which is movably connected is arranged on the movable part, the cover body is connected with one end of one cylinder, and one cylinder is driven to rotate by rotating the cover body.
Further, the movable part comprises an annular chute, the cover body comprises a connecting part, the connecting part is arranged in the annular chute so that the cover body rotates along the annular chute, the movable part is arranged at one axial end of the cylinder, and the cover body is fixed at one end of one cylinder through the connecting component so as to rotate the cover body to drive one cylinder to rotate.
Further, the connecting portion comprises at least two buckles, and the buckles are oppositely arranged and arranged in the annular chute and can slide along the annular chute.
Further, the movable part further comprises an opening, the cover body is used for closing the opening, and the buckle is detachably clamped in the annular chute, so that the cover body is detachably connected to the opening.
Further, the connecting component comprises at least one clamping groove arranged on the cover body and at least one bolt arranged on the cylinder, and the bolt is detachably clamped in the clamping groove, so that the cover body is detachably connected with the cylinder.
Further, the cover body is a suction nozzle, and the suction nozzle is communicated with the second liquid storage cavity through an air duct.
The utility model adopts the structural design of the double liquid storage cavities and the double liquid storage mode of directly storing aerosol matrixes and storing aerosol matrixes through liquid storage cotton, realizes larger liquid storage quantity, and controls the communication and the separation of the two liquid storage cavities by arranging the spacing device between the two liquid storage cavities so as to control the liquid storage quantity in the second liquid storage cavity, thereby improving the taste of the atomized aerosol.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a cross-sectional view of the overall structure of an embodiment of an aerosol-generating device of the present utility model;
FIG. 2 is a schematic view of the external structure of the embodiment shown in FIG. 1;
FIG. 3 is an exploded view of the spacer of the embodiment of FIG. 1;
fig. 4 is a schematic structural view of the cover in the embodiment shown in fig. 1.
The figure indicates: 10. a housing; 11. a liquid storage bin; 12. a spacing device; 13. an atomizing assembly; 14. an air duct; 20. a cover body; 21. a buckle; 22. a clamping groove; 30. a seal ring; 101. an annular chute; 111. a first reservoir; 112. a second reservoir; 121. a first cylinder; 122. a second cylinder; 123. a through hole; 124. a bolt.
Detailed Description
The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are a unit-divided embodiment of the present utility model, not a full-unit embodiment. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
The terms of directions used in the present utility model, such as "up", "down", "front", "back", "left", "right", "inside", "outside", "center", etc., refer only to the directions of the attached drawings. Accordingly, directional terminology is used to describe and understand the utility model and is not limiting of the utility model. In addition, in the drawings, structures similar or identical to those of the drawings are denoted by the same reference numerals.
Referring to fig. 1, a cross-sectional view of the overall structure of an embodiment of the aerosol-generating device of the present utility model;
the aerosol generating device provided by the utility model comprises a liquid storage bin 11 and a spacing device 12, wherein the liquid storage bin 11 is arranged in the shell 10 and is connected with the atomization component 13; the spacing device 12 is disposed in the liquid storage bin 11, and divides the liquid storage bin 11 into a first liquid storage cavity 111 and a second liquid storage cavity 112, the first liquid storage cavity 111 is used for directly storing aerosol matrixes, the second liquid storage cavity 112 is filled with liquid storage cotton and is connected with the atomization component 13, and the spacing device 12 is driven to move by action so as to realize communication or blocking of the first liquid storage cavity 111 and the second liquid storage cavity 112.
It is known that the aerosol substrate is stored in the liquid storage bin 11, and when the first liquid storage cavity 111 is communicated with the second liquid storage cavity 112, the aerosol substrate can be guided from the first liquid storage cavity 111 to the second liquid storage cavity 112 due to the adsorption of liquid storage cotton, and is discharged through the air duct 14 after the second liquid storage cavity 112 is atomized into aerosol by the atomizing assembly 13. The first liquid storage cavity 111 is used for directly storing aerosol substrates, and the second liquid storage cavity 112 is filled with liquid storage cotton and stores aerosol substrates through the liquid storage cotton, wherein the direct storage of aerosol substrates easily causes liquid leakage, the liquid storage amount is reduced when the liquid storage cotton is used for storing the aerosol substrates, and the atomized aerosol amount is affected because the aerosol in the liquid storage cotton cannot be timely supplemented after being consumed, so that the sucking taste is affected. In this embodiment, the combination of the two liquid storage modes not only improves the liquid storage amount, but also controls the communication and the blocking between the two liquid storage cavities by arranging the controllable spacing device 12 between the two liquid storage cavities, so as to avoid the problem that the liquid storage cotton leaks out due to full load, and avoid the problems of poor mouthfeel, dry taste and the like after atomization caused by insufficient aerosol matrix in the liquid storage cotton.
In this embodiment, the spacer 12 includes two spacers abutted to each other, each of the two spacers is provided with a plurality of through holes 123, and the other spacer is driven to move relatively, so that when the through holes 123 on the two spacers are aligned, the first liquid storage cavity 111 and the second liquid storage cavity 112 are communicated with each other, and when the through holes 123 on the two spacers are misaligned, the first liquid storage cavity 111 and the second liquid storage cavity 112 are blocked from each other.
Understandably, two spacers are abutted, one of the spacers is connected to the first liquid storage cavity 111, the other spacer is connected to the second liquid storage cavity 112, the two spacers can move relatively, when the through holes 123 on the two spacers are aligned with each other, the first liquid storage cavity 111 is communicated with the second liquid storage cavity 112, and otherwise, the first liquid storage cavity and the second liquid storage cavity are blocked.
In this embodiment, as shown in fig. 1 and 3, the two spacers are concentric cylinders disposed inside and outside, the two cylinders have sidewalls, the inside and outside of the sidewalls of the two cylinders are abutted, the outside area of the cylinder is a first liquid storage cavity 111, the inside area of the cylinder is a second liquid storage cavity 112, and a plurality of through holes 123 are formed in the sidewall of the cylinder, wherein one cylinder rotates relative to the other cylinder under the action of the through holes 123 on the two cylinders are aligned or dislocated. Specifically, the cylinders include a first cylinder 121 and a second cylinder 122, the first cylinder 121 being provided outside the second cylinder 122, the first cylinder 121 being rotated by the action so as to rotate relative to the second cylinder 122. It should be appreciated that in order to facilitate rotation control of the alignment and misalignment of the through holes 123, a dual concentric cylinder design is used, but the cylinder may be other shapes and relative displacement in other directions, such as axial, may be used to achieve alignment and misalignment of the through holes 123, depending on other design requirements; in other embodiments, the first liquid storage chamber 111 and the second liquid storage chamber 112 may be disposed on the left and right or up and down, the spacer 12 may be two porous plates, and the alignment and misalignment of the through holes 123 may be achieved by driving either of the two cylinders, so that the second cylinder 122 may be rotated by acting to rotate relative to the first cylinder 121.
Understandably, the communication and the blocking between the two liquid storage cavities are realized by utilizing the dislocation hole-aligning principle; in addition, when the through holes 123 on the side walls of the two cylinders are completely aligned, that is, the liquid guiding amount is maximum, when the through holes 123 on the side walls of the two cylinders are completely misplaced, that is, the liquid guiding amount is zero, and the two liquid storage cavities are in a blocking state, so that the liquid guiding amount can be further controlled by controlling the alignment and misplacement degree between the through holes 123 by utilizing the damping characteristic of the liquid film and the size adjustment of the holes, so that the liquid can not quickly flow to cause the liquid leakage problem, and the pressure reduction balance liquid feeding amount is achieved.
Further, in this embodiment, the through holes 123 on the two cylinders are arranged in the same manner, the through holes 123 are uniformly spaced and distributed on the side wall of the cylinder in an array manner, and in other embodiments, the distribution manner of the through holes 123 may be other arrangement manners, so long as alignment and dislocation can be achieved. In addition, the size and number of the through holes 123 can be adjusted according to the requirement, so that the number of the through holes is not excessively limited.
In this embodiment, the housing 10 includes a movable portion, a cover 20 movably connected to the movable portion is provided on the movable portion, the cover 20 is connected to one end of one of the cylinders, and the cover 20 is rotated to drive one of the cylinders to rotate.
Specifically, as shown in fig. 2 and 4, the movable portion includes an annular chute 101, the cover 20 includes a connecting portion, and the connecting portion is disposed in the annular chute 101, so that the cover 20 rotates along the annular chute 101, and the movable portion is disposed at one end of the cylinder in the axial direction, and drives one of the cylinders to rotate by rotating the cover 20. More specifically, the cover 20 is circular, and the connecting portion includes two pairs of buckles 21 disposed opposite to each other at the edge of the cover 20, and the buckles 21 are disposed in the annular chute 101 and can slide along the annular chute 101, so that the cover 20 can rotate around the annular chute 101.
It will be appreciated that the cover 20 acts as a driving member provided on the housing 10 to rotate the inner cylinder, and in this embodiment, an annular chute 101 means is provided to enable the cover 20 to rotate about the annular chute 101 and further to be coupled to the first cylinder 121 via the cover 20 to effect rotation of the cover 20 and thus the first cylinder 121.
By driving the rotary cover 20 on the housing 10, the purpose of further controlling the spacing device 12 is achieved, so that the operation of the user is facilitated.
In this embodiment, the cover 20 is fixed to one end of one of the cylinders through a connection assembly, so as to rotate the cover to drive one of the cylinders to rotate. Specifically, the connecting assembly includes at least one clamping groove 22 provided on the cover 20 and at least one latch 124 provided on the cylinder, and the latch 124 is detachably clamped in the clamping groove 22, so that the cover 20 is detachably connected with the cylinder.
In this embodiment, the movable portion further includes an opening, the opening is in communication with the interior of the liquid storage bin 11, and the buckle 21 is detachably fastened in the annular chute 101, so that the cover 20 is detachably connected to the opening.
The cover 20 is detachably connected to the opening and is in communication with the liquid storage bin 11, so that the aerosol substrate can be replenished into the first liquid storage cavity 111 and the second liquid storage cavity 112 by detaching the cover 20.
In this embodiment, the movable portion is disposed at the top of the housing 10, the cover 20 is connected to the liquid storage bin 11 and the top end of the cylinder, the cover 20 is a suction nozzle, that is, the suction nozzle of the cover 20 is communicated with the second liquid storage cavity 112 through the air duct 14, and a sealing ring 30 is disposed between the suction nozzle and the first and second liquid storage cavities 112.
The liquid storage bin 11 can be sealed and the cylinder can be controlled to rotate through the suction nozzle, so that the whole structure is simplified, and the operation is more convenient.
The utility model adopts the structural design of the double liquid storage cavities and the double liquid storage mode of directly storing aerosol matrixes and storing aerosol matrixes through liquid storage cotton, realizes larger liquid storage quantity, and controls the communication and the separation of the two liquid storage cavities by arranging the spacing device between the two liquid storage cavities so as to control the liquid storage quantity in the second liquid storage cavity, thereby improving the taste of the atomized aerosol; in addition, by arranging the rotatable suction nozzle and driving the rotation of the inner cylinder by the rotation of the suction nozzle, the operation is more convenient; and the suction nozzle is detachably arranged on the shell and used for sealing the liquid storage bin, and aerosol matrixes can be supplemented into the liquid storage cavity by detaching the suction nozzle.
It is to be understood that the utility model has been described in terms of several embodiments, and it will be apparent to those skilled in the art that various changes can be made and equivalents can be substituted for elements thereof without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.
Claims (10)
1. An aerosol generating device comprising a housing and an atomizing assembly, further comprising:
the liquid storage bin is arranged in the shell and is connected with the atomization assembly;
the spacing device is arranged in the liquid storage bin and divides the liquid storage bin into a first liquid storage cavity and a second liquid storage cavity, the first liquid storage cavity is used for directly storing aerosol matrixes, the second liquid storage cavity is filled with liquid storage cotton and is connected with the atomizing assembly, and the spacing device is driven to move so as to realize the communication or separation of the first liquid storage cavity and the second liquid storage cavity.
2. The aerosol generating device according to claim 1, wherein the spacer comprises two spacers abutting against each other, a plurality of through holes are formed in each of the two spacers, and the other spacer is driven to move relatively so that the first liquid storage cavity and the second liquid storage cavity are communicated when the through holes in the two spacers are aligned, and the first liquid storage cavity and the second liquid storage cavity are blocked when the through holes in the two spacers are misaligned.
3. The aerosol generating device of claim 2, wherein the two spacers are concentric cylinders disposed inside and outside, the outside of the cylinders is a first liquid storage chamber, the inside of the cylinders is a second liquid storage chamber, and a plurality of through holes are formed in the side wall of the cylinders, wherein one of the cylinders rotates relative to the other cylinder to align or misalign the through holes in the two cylinders.
4. An aerosol-generating device according to claim 3 in which the through holes are evenly spaced and distributed in an array on the side wall of the cylinder.
5. The aerosol generating device of claim 4, wherein the housing comprises a movable portion having a movably coupled cover coupled to one end of one of the cylinders, and wherein rotation of the cover rotates one of the cylinders.
6. The aerosol generating device according to claim 5, wherein the movable portion comprises an annular chute, the cover body comprises a connecting portion, the connecting portion is disposed in the annular chute to enable the cover body to rotate along the annular chute, the movable portion is disposed at one axial end of the cylinder, and the cover body is fixed at one axial end of one of the cylinders through the connecting assembly to enable the cover body to rotate to enable the one of the cylinders to rotate.
7. The aerosol generating device of claim 6, wherein the connecting portion comprises at least two snaps disposed opposite one another and disposed within the annular chute and slidable along the annular chute.
8. The aerosol generating device of claim 7, wherein the movable portion further comprises an opening, the cover is configured to close the opening, and the buckle is detachably engaged in the annular chute, so that the cover is detachably connected to the opening.
9. The aerosol generating device of claim 8, wherein the connecting assembly comprises at least one slot provided on the cover and at least one pin provided on the cylinder, the pin being detachably engaged in the slot to detachably connect the cover to the cylinder.
10. The aerosol generating device of claim 5, wherein the cap is a mouthpiece that communicates with the second reservoir via an air duct.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223468450.2U CN219288727U (en) | 2022-12-21 | 2022-12-21 | Aerosol generating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223468450.2U CN219288727U (en) | 2022-12-21 | 2022-12-21 | Aerosol generating device |
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CN219288727U true CN219288727U (en) | 2023-07-04 |
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CN202223468450.2U Active CN219288727U (en) | 2022-12-21 | 2022-12-21 | Aerosol generating device |
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- 2022-12-21 CN CN202223468450.2U patent/CN219288727U/en active Active
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