Atomizing device

The integrated structural design of the power supply and atomization components simplifies the installation process of the atomization device, solves the problem of complex installation structure, and improves installation efficiency.

CN224440422UActive Publication Date: 2026-07-03HG INNOVATION LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HG INNOVATION LTD
Filing Date
2025-07-11
Publication Date
2026-07-03

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Abstract

This application provides an atomizing device. The atomizing device includes a power supply component comprising a first mounting base; the atomizing component includes a liquid storage chamber shell, an atomizing core, and a second mounting base, the liquid storage chamber shell having an opening at one end; the atomizing core is disposed on the second mounting base, the second mounting base being connected to one end of the first mounting base, the first mounting base, the second mounting base, and the atomizing core being configured to be installed into the liquid storage chamber shell along the opening, thereby integrating the atomizing component and the power supply component; the second mounting base and the liquid storage chamber shell together define a liquid storage cavity for storing the atomizing matrix, the atomizing core being connected to the liquid storage cavity via a liquid path, and the atomizing core being electrically connected to the power supply component; the outer shell has an opening at one end, and the atomizing component and the power supply component are configured to be installed into the outer shell shell along the opening. This not only facilitates the installation of the liquid storage chamber shell and the atomizing core, but also facilitates the installation of the atomizing component, the power supply component, and the outer shell, thus improving the installation efficiency of the atomizing device.
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Description

Technical Field

[0001] This application relates to the field of electronic atomization technology, and in particular to an atomization device. Background Technology

[0002] The structure of an atomizing device typically includes a liquid storage chamber, an atomizing core, and a power supply component. The liquid storage chamber stores the atomizing matrix, the atomizing core is housed within the liquid storage cavity formed by the liquid storage chamber, and the power supply component is connected to the liquid storage chamber. Therefore, the installation and fabrication process of an atomizing device requires not only the installation of the atomizing core and the liquid storage chamber, but also ensuring the atomizing core is installed within the liquid storage chamber and the power supply component is properly connected to the liquid storage chamber. This results in a complex installation structure for the atomizing device, increasing the difficulty of installation and reducing its efficiency. Utility Model Content

[0003] To address or partially address the aforementioned problems, this application discloses an atomizing device to solve the problem that the installation structure of atomizing devices in related technologies is relatively complex, which increases the installation difficulty of atomizing devices and reduces the installation efficiency of atomizing devices.

[0004] To address the above problems, embodiments of this application provide an atomizing device, comprising:

[0005] Power supply components, including a first mounting base;

[0006] An atomizing assembly includes a liquid storage tank, an atomizing core, and a second mounting base. The liquid storage tank has an opening at one end. The atomizing core is disposed on the second mounting base, which is connected to one end of the first mounting base. The first mounting base, the second mounting base, and the atomizing core are configured to be installed into the liquid storage tank along the opening, so that the atomizing assembly and the power supply assembly are assembled as a single unit. The second mounting base and the liquid storage tank together define a liquid storage cavity for storing the atomizing matrix. The atomizing core is connected to the liquid storage cavity via a liquid passage, and the atomizing core is electrically connected to the power supply assembly.

[0007] The housing has an opening at one end, and the atomizing component and the power supply component are configured to be mounted together into the housing along the opening.

[0008] Optionally, the first mounting base has a first connecting portion at the end facing the second mounting base, and the second mounting base has a second connecting portion at the end facing the first mounting base. The first connecting portion has a connecting groove, and the second connecting portion is sealed and inserted into the connecting groove.

[0009] Optionally, the atomizing device may further include a sealing element;

[0010] The sealing element is sleeved on the first connecting part, and the sealing element is sealed between the first connecting part, the second connecting part and the liquid storage tank shell.

[0011] Optionally, the sealing element includes a sealing inner sleeve, a sealing outer sleeve, and a connecting wall; the connecting wall is connected between the sealing inner sleeve and the sealing outer sleeve, and the end of the second connecting portion away from the first connecting portion is further provided with a snap-fit ​​boss;

[0012] The inner sealing sleeve, the connecting wall, and the outer sealing sleeve together form an installation cavity;

[0013] The first connecting part is embedded in the mounting cavity, the inner wall of the sealing inner sleeve abuts against the second connecting part, the side of the connecting wall away from the mounting cavity abuts against the snap-fit ​​boss, and the outer wall of the sealing outer sleeve abuts against the inner wall of the liquid storage tank shell.

[0014] Optionally, the second mounting base further includes a receiving portion disposed at one end of the second connecting portion away from the first connecting portion;

[0015] An inner cavity is formed between the accommodating portion and the second connecting portion, and the second connecting portion communicates with the inner cavity. The outer wall of the accommodating portion and the liquid storage tank shell are interference-fitted, and the atomizing core is housed in the inner cavity.

[0016] Optionally, the interior of the liquid storage tank shell is provided with a gas guide pipe communicating with the outside;

[0017] The atomizing core includes an atomizing tube and a heating element. The heating element is disposed inside the atomizing tube. One end of the atomizing tube is embedded in the inner cavity, and the other end of the atomizing tube covers the end of the air guide tube.

[0018] Optionally, the first mounting base further includes a top seat, a base, and a side panel. The top seat and the base are disposed on two opposite ends of the side panel. The first connecting part is disposed at the end of the top seat away from the base. The top seat, the base, the side panel, and the outer shell form an accommodating cavity.

[0019] The power supply component includes a built-in power supply, which is installed in the accommodating cavity.

[0020] Optionally, the end of the liquid storage tank shell is provided with a snap-fit ​​groove, and the outer wall of the end of the first mounting base facing the second mounting base is provided with a snap-fit ​​protrusion structure, which snaps into the snap-fit ​​groove.

[0021] Optionally, the liquid storage tank shell may further include an installation chamber and a suction nozzle;

[0022] The mounting compartment is inserted into the inner cavity at one end of the outer shell and is interference-fitted with the outer shell;

[0023] A first limiting shoulder is formed at the connection between the mounting chamber and the suction nozzle, and the first limiting shoulder abuts against the end face of the outer shell.

[0024] Optionally, the outer shell gradually tapers towards its middle position from opposite ends along the extension direction, and the atomizing component and the power supply component are adapted to the shape of the inner wall of the outer shell;

[0025] And / or, at least a portion of the liquid storage tank shell and / or the outer shell is a transparent or semi-transparent structure.

[0026] According to the embodiments of this application, since the power supply component includes a first mounting base, and the atomizing component includes a liquid storage tank shell, an atomizing core, and a second mounting base, the liquid storage tank shell has an opening at one end; the atomizing core is disposed on the second mounting base, and the second mounting base is connected to one end of the first mounting base. The first mounting base, the second mounting base, and the atomizing core are configured to be installed together into the liquid storage tank shell along the opening of the liquid storage tank shell, so that the atomizing component and the power supply component are assembled into one unit. Therefore, the power supply component and the atomizing component can be assembled first through the connection between the first mounting base and the second mounting base, thereby enabling the power supply component and the atomizing component to form an integral structure for installation. Furthermore, since the second mounting base and the liquid storage tank shell jointly define a liquid storage cavity for storing the atomizing matrix, the atomizing core is connected to the liquid storage cavity via a liquid circuit, and the atomizing core is electrically connected to the power supply component. The outer shell has an opening at one end, and the atomizing component and power supply component are configured to be installed together inside the outer shell along the opening. Therefore, when installing the atomizing device, the atomizing matrix can be pre-stored in the liquid storage cavity formed between the second mounting base and the liquid storage tank shell, and then the connected first and second mounting bases can be installed as a whole into the outer shell to achieve the installation of the atomizing device. In summary, the atomizing device provided in this application embodiment not only facilitates the installation of the liquid storage tank shell and the atomizing core, but also facilitates the installation of the atomizing component, the power supply component, and the outer shell. The overall installation structure of the atomizing device is relatively simple, simplifying the installation difficulty and improving the installation efficiency of the atomizing device. Attached Figure Description

[0027] To more clearly illustrate the technical solutions in the embodiments of this application or related technologies, the drawings used in the description of the embodiments or related technologies will be briefly introduced below. Obviously, the drawings described below are some embodiments of this disclosure. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0028] Figure 1 This is a schematic diagram of the atomizing device provided in the embodiments of this application;

[0029] Figure 2 This is an exploded view of the atomizing device provided in the embodiments of this application;

[0030] Figure 3 This is one of the cross-sectional views of the atomizing device provided in the embodiments of this application;

[0031] Figure 4 Is Figure 3 A magnified view of point A in the diagram;

[0032] Figure 5 This is a second cross-sectional view of the atomizing device provided in the embodiments of this application from another perspective;

[0033] Figure 6 Is Figure 5 A magnified view of point B in the diagram;

[0034] Figure 7 This is a schematic diagram of the structure of the atomizing device provided in the embodiments of this application, including the first mounting base.

[0035] Explanation of reference numerals in the attached figures:

[0036] 1: Power supply component; 11: First mounting base; 111: First connecting part; 1111: Connecting groove; 112: Snap-fit ​​protrusion structure; 113: Top seat; 1131: Third limiting shoulder; 114: Base; 115: Side panel; 12: Built-in power supply; 2: Atomizing component; 21: Liquid storage tank shell; 211: Snap-fit ​​groove; 212: Air guide tube; 213: Second limiting shoulder; 214: Mounting chamber; 215: Nozzle; 216: First limiting shoulder; 22: Atomizing core; 221: Atomizing tube; 222: Heating element; 23: Second mounting base; 231: First connecting part; 232: Receiving part; 233: Snap-fit ​​boss; 234: Inner cavity; 3: Outer shell; 4: Sealing element; 41: Sealing inner sleeve; 42: Sealing outer sleeve; 43: Connecting wall. Detailed Implementation

[0037] The present application will now be described in further detail with reference to the accompanying drawings and specific embodiments. Similar elements in different embodiments are referred to by related similar element reference numerals. In the following embodiments, many details are described to facilitate a better understanding of the present application. However, those skilled in the art will readily recognize that some features may be omitted in different situations, or may be replaced by other elements, materials, or methods. In some cases, certain operations related to the present application are not shown or described in the specification. This is to avoid obscuring the core parts of the present application with excessive description. For those skilled in the art, detailed description of these related operations is not necessary; they can fully understand the related operations based on the description in the specification and general technical knowledge in the art.

[0038] Furthermore, the features, operations, or characteristics described in the specification can be combined in any suitable manner to form various embodiments. At the same time, the steps or actions in the method description can be rearranged or adjusted in a manner obvious to those skilled in the art. Therefore, the various orders in the specification and drawings are only for the clear description of a particular embodiment and do not imply a necessary order, unless otherwise stated that a particular order must be followed.

[0039] The serial numbers assigned to components in this document, such as "first" and "second," are used only to distinguish the described objects and have no sequential or technical meaning. The terms "connection" and "linkage" used in this application, unless otherwise specified, include both direct and indirect connections (linkages).

[0040] Please refer to Figure 1 , Figure 2 and Figure 3 This application provides an atomizing device, which includes:

[0041] The power supply component 1 includes a first mounting base 11.

[0042] The atomizing component 2 includes a liquid storage shell 21, an atomizing core 22, and a second mounting base 23. The liquid storage shell 21 has an opening at one end. The atomizing core 22 is disposed on the second mounting base 23, which is connected to one end of a first mounting base 11. The first mounting base 11, the second mounting base 23, and the atomizing core 22 are configured to be installed together into the liquid storage shell 21 along the opening, so that the atomizing component 2 and the power supply component 1 are assembled into one unit. The second mounting base 23 and the liquid storage shell 21 together define a liquid storage cavity for storing the atomizing matrix. The atomizing core 22 is connected to the liquid storage cavity via a liquid passage and is electrically connected to the power supply component 1.

[0043] The housing 3 has an opening at one end, and the atomizing component 2 and the power supply component 1 are configured to be installed together inside the housing 3 along the opening of the housing 3.

[0044] As can be seen from the above embodiments, in this application embodiment, since the power supply component 1 includes a first mounting base 11, and the atomizing component 2 includes a liquid storage shell 21, an atomizing core 22, and a second mounting base 23, the liquid storage shell 21 has an opening at one end; the atomizing core 22 is disposed on the second mounting base 23, and the second mounting base 23 is connected to one end of the first mounting base 11. The first mounting base 11, the second mounting base 23, and the atomizing core 22 are configured to be installed together into the liquid storage shell 21 along the opening of the liquid storage shell 21, so that the atomizing component 2 and the power supply component 1 are assembled into one unit. Therefore, the power supply component 1 and the atomizing component 2 can be assembled first through the connection between the first mounting base 11 and the second mounting base 23, so that the power supply component 1 and the atomizing component 2 can form an integral structure for installation. Furthermore, since the second mounting base 23 and the liquid storage shell 21 jointly define a liquid storage cavity for storing the atomizing matrix, the atomizing core 22 is connected to the liquid storage cavity via a liquid path, the atomizing core 22 is electrically connected to the power supply component 1, and the outer shell 3 has an opening at one end, the atomizing component 2 and the power supply component 1 are configured to be installed together inside the outer shell 3 along the opening. Therefore, when installing the atomizing device, the atomizing matrix can be pre-stored in the liquid storage cavity formed between the second mounting base 23 and the liquid storage shell 21, and then the connected first mounting base 11 and second mounting base 23 can be installed into the outer shell 3 as a whole to realize the installation of the atomizing device. In summary, the atomizing device provided in this application embodiment not only facilitates the installation of the liquid storage shell 21 and the atomizing core 22, but also facilitates the installation of the atomizing component 2, the power supply component 1, and the outer shell 3. The installation structure of the entire atomizing device is relatively simple, simplifying the installation difficulty of the atomizing device and improving the installation efficiency of the atomizing device.

[0045] In the above embodiments, the outer shell 3 can be a single-layer outer shell structure, a double-layer outer shell structure, or other forms of outer shell structure. The outer shell 3 can be a square cylindrical structure, a circular cylindrical structure, or other shaped cylindrical structure, so that the outer shell 3 can form a cavity to accommodate the atomizing component 2 and the power supply component 1. The atomizing component 2 and the power supply component 1 can be detachably connected to the interior of one end of the living room through one or more connection methods such as snap-fit, plug-in, and threaded connection.

[0046] The first mounting base 11 and the second mounting base 23 can be one or more of the following structures: frame structure, cylindrical structure, cover structure, etc., and this application embodiment does not limit this. The second mounting base 23 can be detachably connected to one end of the liquid storage tank shell 21 by at least part of it through abutment, snap-fit, etc., so that the second mounting base 23 and the liquid storage tank shell 21 can jointly form a liquid storage cavity, thereby storing the atomizing matrix in the liquid storage cavity, and allowing the second mounting base 23 to communicate with the liquid path of the atomizing core 22, so as to achieve stable installation of the atomizing component 2.

[0047] In some embodiments, such as Figure 4 and Figure 7 As shown, the first mounting base 11 is provided with a first connecting part 111 at the end facing the second mounting base 23, and the second mounting base 23 is provided with a second connecting part 231 at the end facing the first mounting base 11. The first connecting part 111 has a connecting groove 1111, and the second connecting part 231 is sealed and inserted into the connecting groove 1111.

[0048] In this embodiment, since the first mounting base 11 has a first connecting portion 111 at its end facing the second mounting base 23, and the second mounting base 23 has a second connecting portion 231 at its end facing the first mounting base 11, and the first connecting portion 111 has a connecting groove 1111, the second connecting portion 231 can be directly and sealingly inserted into the connecting groove 1111 of the first connecting portion 111. This facilitates the installation of both the first connecting portion 111 and the second connecting portion 231, while also ensuring a seal between them. It should be noted that the first connecting portion 111 and the second connecting portion 231 can be cylindrical, square, or other cylindrical structures; this embodiment does not limit the specific type of cylindrical structure.

[0049] In some embodiments, such as Figure 5 and Figure 6 As shown, the atomizing device also includes a sealing element 4, which is sleeved on the first connecting part 111 and is sealed between the first connecting part 111, the second connecting part 231 and the liquid storage tank shell 21.

[0050] In this embodiment, the atomizing device also includes a sealing element 4, which is sleeved on the first connecting part 111 and sealably connects the first connecting part 111, the second connecting part 231, and the liquid storage tank shell 21. Therefore, the sealing element 4 enables the installation between the first connecting part 111 and the liquid storage tank shell 21, while simultaneously sealing the gap between them. Similarly, the sealing element 4 enables the installation of the first connecting part 111 and the second connecting part 231, while also sealing the gap between them. In other words, a single sealing element 4 can simultaneously achieve the installation and sealing between the first connecting part 111 and the liquid storage tank shell 21, and between the first connecting part 111 and the second connecting part 231, thereby simplifying the installation structure of the atomizing device and facilitating its installation.

[0051] It should be noted that the sealing element 4 can be any of the flexible sealing elements 4 such as perfluororubber, nitrile rubber, hydrogenated nitrile rubber, and silicone rubber. The sealing element 4 can be at least one of the following structures: annular structure, cylindrical structure, and outer shell structure. The sealing element 4 is sealed between the first connecting part 111 and the second connecting part 231. Since the sealing element 4 is a flexible structure, it can seal the gap between the first mounting seat 11 and the second mounting seat 23, while ensuring that the sealing element 4 is at least partially located between the first mounting seat 11 and the liquid storage tank shell 21, thus sealing the gap between the first mounting seat 11 and the liquid storage tank shell 21. The sealing element 4 can be a sealing cylindrical structure, a sealing frame structure, or other structures. Taking the sealing element 4 as a sealing cylindrical structure as an example, the sealing element 4 can include at least two sealing surfaces that respectively seal the second mounting seat 23 and the liquid storage tank shell 21. Simultaneously, the inner wall of the sealing element 4 abuts against the second mounting base 23, and the outer wall of the sealing element 4 abuts against the liquid storage tank shell 21. The first mounting base 11 is embedded in the sealing element 4. Therefore, the installation between the first mounting base 11 and the liquid storage tank shell 21, and between the first mounting base 11 and the second mounting base 23 can be achieved solely through the first sealing element 4. It can also seal the gap between the first mounting base 11 and the liquid storage tank shell 21, and the gap between the first mounting base 11 and the second mounting base 23, thereby simplifying the installation structure between the first mounting base 11 and the second mounting base 23, and simplifying the installation structure between the liquid storage tank shell 21 and the first mounting base 11.

[0052] Regarding the structure of seal 4, in some embodiments, such as Figure 4 and Figure 6 As shown, the sealing element 4 includes an inner sealing sleeve 41, an outer sealing sleeve 42, and a connecting wall 43. The connecting wall 43 is connected between the inner sealing sleeve 41 and the outer sealing sleeve 42. The second connecting part 231 is further provided with a snap-fit ​​boss 233 at one end away from the first connecting part 111. The inner sealing sleeve 41, the connecting wall 43, and the outer sealing sleeve 42 form an installation cavity. The first connecting part 111 is embedded in the installation cavity. The inner wall of the inner sealing sleeve 41 abuts against the second connecting part 231. The side of the connecting wall 43 away from the installation cavity abuts against the snap-fit ​​boss 233. The outer wall of the outer sealing sleeve 42 abuts against the inner wall of the liquid storage tank shell 21.

[0053] In this embodiment, since the connecting wall 43 connects between the inner sealing sleeve 41 and the outer sealing sleeve 42, the sealing element 4 forms a double-layer sealing structure. Thus, the inner sealing sleeve 41 seals the gap between the first connecting part 111 and the second connecting part 231, and the outer sealing sleeve 42 seals the gap between the first connecting part 111 and the liquid storage tank shell 21. Simultaneously, the mounting cavity formed between the inner sealing sleeve 41 and the outer sealing sleeve 42 engages the first connecting part 111, thereby limiting the position of the first mounting seat 11 and ensuring the stability of the first mounting seat 11 during installation.

[0054] It should be noted that the sealing outer sleeve 42 has a first protrusion structure on its surface facing the liquid storage tank shell 21. When the sealing outer sleeve 42 and the liquid storage tank shell 21 come into contact, the first protrusion structure deforms, thereby sealing the gap between the sealing outer sleeve 42 and the liquid storage tank shell 21. The sealing inner sleeve 41 has multiple second protrusion structures on its surface facing the second mounting base 23. When the sealing inner sleeve 41 and the liquid storage tank shell 21 come into contact, the second protrusion structures deform, thereby sealing the gap between the sealing inner sleeve 41 and the liquid storage tank shell 21.

[0055] In some embodiments, such as Figure 4 and Figure 6 As shown, the second mounting base 23 also includes a receiving portion 232, which is disposed at the end of the second connecting portion 231 away from the first connecting portion 111. An inner cavity 234 is formed between the receiving portion 232 and the second connecting portion 231, and the second connecting portion 231 communicates with the inner cavity. The outer wall of the receiving portion 232 and the liquid storage tank shell 21 are interference-fitted, and the atomizing core 22 is housed in the inner cavity.

[0056] In this embodiment, the second connecting part can be a cylindrical structure, and the receiving part 232 can be a flared cylindrical structure with a diameter that gradually increases in the direction away from the first connecting part 111. The internal cavity of the first connecting part 111 and the internal cavity of the receiving part 232 are connected, thereby forming an inner cavity 234 that can accommodate the atomizing core 22. In this way, the second connecting part and the first mounting base 11 can be installed through the sealing inner sleeve 41, so that the receiving part 232 and the liquid storage tank shell 21 are interference-fitted, thereby making the second mounting base 23 as a whole stable, which is convenient for positioning when installing the second mounting base 23. At the same time, since the atomizing core 22 is housed in the inner cavity 234, the atomizing core 22 can be fixed through the second mounting base 23, which is convenient for installing the atomizing core 22.

[0057] In some embodiments, as shown in the figure, the interior of the liquid storage tank shell 21 is provided with an air guide pipe 212 communicating with the outside. The atomizing core 22 includes an atomizing tube 221 and a heating element 222. The heating element 222 is disposed inside the atomizing tube 221. One end of the atomizing tube 221 is embedded in the inner cavity, and the other end of the atomizing tube 221 is covered by the end of the air guide pipe 212.

[0058] In this embodiment, since the liquid storage tank shell 21 is provided with an air guide pipe 212 that communicates with the outside, the atomizing core 22 includes an atomizing tube 221 and a heating element 222. The heating element 222 is disposed inside the atomizing tube 221. One end of the atomizing tube 221 is embedded in the inner cavity, and the other end of the atomizing tube 221 is covered by the end of the air guide pipe 212. Therefore, the atomizing tube 221 can be positioned and installed through the air guide pipe 212, thereby enabling the liquid storage tank shell 21 and the second mounting base 23 to be positioned and installed through the atomizing tube 221. This facilitates communication between the atomizing core 22 and the air guide pipe 212, and allows the atomized matrix generated by the atomizing core 22 to flow out to the outside of the atomizing device through the air guide pipe 212.

[0059] In some embodiments, the first mounting base 11 further includes a top base 113, a base 114, and a side panel 115. The top base 113 and the base 114 are disposed on opposite ends of the side panel 115. The first connecting portion 111 is disposed at the end of the top base 113 away from the base 114. The top base 113, the base 114, the side panel 115, and the outer shell 3 form an accommodating cavity. The power supply assembly 1 includes a built-in power supply 12, which is installed in the accommodating cavity.

[0060] In this embodiment, both the base 114 and the top seat 113 can be block structures, and the side panel 115 can be an arc-shaped plate structure. Thus, a receiving cavity is formed between the top seat 113, the base 114, the side panel 115, and the outer shell 3. The power supply assembly 1 includes a built-in power supply 12, which is installed in the receiving cavity. Therefore, the built-in power supply 12 can be simultaneously installed via the second mounting seat 23, further facilitating the assembly of the atomizing device. Furthermore, since the first connecting part 111 is located at the end of the top seat 113 away from the base 114, installation can be performed via the first connecting part 111 and the second connecting part 231, simplifying the connection structure between the first connecting part 111 and the second connecting part 231.

[0061] In some embodiments, such as Figure 6 As shown, the end of the liquid storage tank shell 21 is provided with a snap-fit ​​groove 211, and the outer wall of the end of the first mounting base 11 facing the second mounting base 23 is provided with a snap-fit ​​protrusion structure 112, which snaps into the snap-fit ​​groove 211.

[0062] In this embodiment, since the end of the liquid storage tank shell 21 is provided with a snap-fit ​​groove 211 and the outer wall of the end of the first mounting base 11 facing the second mounting base 23 is provided with a snap-fit ​​protrusion structure 112, the snap-fit ​​between the liquid storage tank shell 21 and the first mounting base 11 can be achieved by snap-fit ​​between the snap-fit ​​protrusion structure 112 and the snap-fit ​​groove 211, which facilitates the installation between the first mounting base 11 and the liquid storage tank shell 21.

[0063] In some embodiments, such as Figure 3 and Figure 5 As shown, the liquid storage tank shell 21 includes an installation chamber 214 and a suction nozzle 215. The installation chamber 214 is inserted into the inner cavity of one end of the outer shell 3 and is interference-fitted with the outer shell 3. A first limiting shoulder 216 is formed at the connection between the installation chamber 214 and the suction nozzle 215. The first limiting shoulder 216 abuts against the end face of the outer shell 3.

[0064] In this embodiment, since the installation chamber 214 is inserted into the inner cavity of one end of the outer shell 3 and is interference-fitted with the outer shell 3, a first limiting shoulder 216 is formed at the connection between the installation chamber 214 and the suction nozzle 215. The first limiting shoulder 216 abuts against the end face of the outer shell 3. Therefore, the outer shell 3 can accommodate part of the liquid storage tank shell 21 and limit the liquid storage tank shell 21, which is beneficial to the stability of the installation between the liquid storage tank shell 21 and the outer shell 3.

[0065] Furthermore, in some embodiments, such as Figure 4 The second mounting base 23 also includes a snap-fit ​​boss 233, which extends in an axial direction away from the first connecting portion 111. The snap-fit ​​boss 233 is disposed at the connection between the first connecting portion 111 and the receiving portion 232. The surface of the snap-fit ​​boss 233 facing the first mounting base 11 abuts against the connecting wall 43. A second limiting shoulder 213 is formed on the inner wall of the liquid storage tank shell 21 facing the second mounting base 23. The surface of the snap-fit ​​boss 233 away from the first mounting base 11 abuts against the second limiting shoulder 213.

[0066] In this embodiment, since the surface of the snap-fit ​​boss 233 facing the first mounting base 11 abuts against the connecting wall 43, and a second limiting shoulder 213 facing the second mounting base 23 is formed on the inner wall of the liquid storage tank shell 21, the surface of the snap-fit ​​boss 233 away from the first mounting base 11 abuts against the second limiting shoulder 213. Therefore, the snap-fit ​​boss 233 can be limited by the second limiting shoulder 213 and the connecting wall 43, thereby limiting the second mounting base 23 axially, which helps to ensure the stability of the installation of the second mounting base 23. In addition, as Figure 7 As shown, a third limiting shoulder 1131 can also be formed on the end face of the top seat 113 facing the second mounting seat 23. The seal 4 is limited between the snap-fit ​​boss 233 and the third limiting shoulder 1131. Therefore, the seal 4 can be limited in the axial direction by the snap-fit ​​boss 233 and the third limiting shoulder 1131, which is more conducive to the stability of the seal 4 installation.

[0067] In some embodiments, the outer shell 3 gradually tapers towards its middle position from opposite ends along the extension direction, the atomizing component 2 and the power supply component 1 are adapted to the shape of the inner wall of the outer shell 3, and / or, at least part of the liquid storage tank shell 21 and / or the outer shell 3 is a transparent or semi-transparent structure.

[0068] In this embodiment, since the outer shell 3 gradually tapers towards its center from both ends along its extension direction, and the shapes of the atomizing component 2 and the power supply component 1 are adapted to the inner wall of the outer shell 3, while ensuring that the outer shell 3 can be adapted to the installation of the atomizing component 2 and the power supply component 1, the outer shell 3 can form a spindle-shaped structure that gradually increases from the center to both ends, making it easier for the user to hold the atomizing device. Furthermore, when at least a portion of the liquid storage tank shell 21 and / or the outer shell 3 is transparent or semi-transparent, the user can easily observe the remaining amount of atomizing matrix stored in the liquid storage tank shell 21, thus improving the user experience.

[0069] As can be seen from the above embodiments, in this application embodiment, since the power supply component 1 includes a first mounting base 11, and the atomizing component 2 includes a liquid storage shell 21, an atomizing core 22, and a second mounting base 23, the liquid storage shell 21 has an opening at one end; the atomizing core 22 is disposed on the second mounting base 23, and the second mounting base 23 is connected to one end of the first mounting base 11. The first mounting base 11, the second mounting base 23, and the atomizing core 22 are configured to be installed together into the liquid storage shell 21 along the opening of the liquid storage shell 21, so that the atomizing component 2 and the power supply component 1 are assembled into one unit. Therefore, the power supply component 1 and the atomizing component 2 can be assembled first through the connection between the first mounting base 11 and the second mounting base 23, so that the power supply component 1 and the atomizing component 2 can form an integral structure for installation. Furthermore, since the second mounting base 23 and the liquid storage shell 21 jointly define a liquid storage cavity for storing the atomizing matrix, the atomizing core 22 is connected to the liquid storage cavity via a liquid path, the atomizing core 22 is electrically connected to the power supply component 1, and the outer shell 3 has an opening at one end, the atomizing component 2 and the power supply component 1 are configured to be installed together inside the outer shell 3 along the opening. Therefore, when installing the atomizing device, the atomizing matrix can be pre-stored in the liquid storage cavity formed between the second mounting base 23 and the liquid storage shell 21, and then the connected first mounting base 11 and second mounting base 23 can be installed into the outer shell 3 as a whole to realize the installation of the atomizing device. In summary, the atomizing device provided in this application embodiment not only facilitates the installation of the liquid storage shell 21 and the atomizing core 22, but also facilitates the installation of the atomizing component 2, the power supply component 1, and the outer shell 3. The installation structure of the entire atomizing device is relatively simple, simplifying the installation difficulty of the atomizing device and improving the installation efficiency of the atomizing device.

[0070] The various embodiments in the specification are described in a progressive manner, with each embodiment focusing on the differences from other embodiments. The same or similar parts between the various embodiments can be referred to each other.

[0071] Although preferred embodiments of the present application have been described, those skilled in the art, upon learning the basic inventive concept, can make other changes and modifications to these embodiments. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments as well as all changes and modifications falling within the scope of the embodiments of the present application.

[0072] Finally, it should be noted that in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or terminal device that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or terminal device. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or terminal device that includes said element.

[0073] The present application has been described in detail above. Specific examples have been used to illustrate the principles and implementation methods of the present application. The description of the above embodiments is only for the purpose of helping to understand the method and core ideas of the present application. At the same time, for those skilled in the art, there will be changes in the specific implementation methods and application scope based on the ideas of the present application. Therefore, the content of this specification should not be construed as a limitation of the present application.

Claims

1. An atomising device characterised in that, include: Power supply components, including a first mounting base; An atomizing assembly includes a liquid storage tank, an atomizing core, and a second mounting base. The liquid storage tank has an opening at one end. The atomizing core is disposed on the second mounting base, which is connected to one end of the first mounting base. The first mounting base, the second mounting base, and the atomizing core are configured to be installed into the liquid storage tank along the opening, so that the atomizing assembly and the power supply assembly are assembled as a single unit. The second mounting base and the liquid storage tank together define a liquid storage cavity for storing the atomizing matrix. The atomizing core is connected to the liquid storage cavity via a liquid passage, and the atomizing core is electrically connected to the power supply assembly. The housing has an opening at one end, and the atomizing component and the power supply component are configured to be mounted together into the housing along the opening.

2. The atomization device of claim 1, wherein, The first mounting base has a first connecting portion at its end facing the second mounting base, and the second mounting base has a second connecting portion at its end facing the first mounting base. The first connecting portion has a connecting groove, and the second connecting portion is sealed and inserted into the connecting groove.

3. The atomization device of claim 2, wherein, The atomizing device also includes a sealing element; The sealing element is sleeved on the first connecting part, and the sealing element is sealed between the first connecting part, the second connecting part and the liquid storage tank shell.

4. The atomization device of claim 3, wherein, The sealing element includes a sealing inner sleeve, a sealing outer sleeve, and a connecting wall; the connecting wall connects the sealing inner sleeve and the sealing outer sleeve, and the second connecting part is further provided with a snap-fit ​​boss at the end away from the first connecting part; The inner sealing sleeve, the connecting wall, and the outer sealing sleeve together form an installation cavity; The first connecting part is embedded in the mounting cavity, the inner wall of the sealing inner sleeve abuts against the second connecting part, the side of the connecting wall away from the mounting cavity abuts against the snap-fit ​​boss, and the outer wall of the sealing outer sleeve abuts against the inner wall of the liquid storage tank shell.

5. The atomization device of claim 2, wherein, The second mounting base further includes a receiving portion, which is disposed at the end of the second connecting portion away from the first connecting portion; An inner cavity is formed between the accommodating portion and the second connecting portion, and the second connecting portion communicates with the inner cavity. The outer wall of the accommodating portion and the liquid storage tank shell are interference-fitted, and the atomizing core is housed in the inner cavity.

6. The atomization device of claim 5, wherein, The liquid storage tank shell is equipped with an air duct that communicates with the outside. The atomizing core includes an atomizing tube and a heating element. The heating element is disposed inside the atomizing tube. One end of the atomizing tube is embedded in the inner cavity, and the other end of the atomizing tube covers the end of the air guide tube.

7. The atomizing device according to claim 2, characterized in that, The first mounting base further includes a top seat, a base, and a side panel. The top seat and the base are disposed on two opposite ends of the side panel. The first connecting part is disposed at the end of the top seat away from the base. The top seat, the base, the side panel, and the outer shell form an accommodating cavity. The power supply component includes a built-in power supply, which is installed in the accommodating cavity.

8. The atomization device of claim 1, wherein, The end of the liquid storage tank shell is provided with a snap-fit ​​groove, and the outer wall of the end of the first mounting base facing the second mounting base is provided with a snap-fit ​​protrusion structure, which snaps into the snap-fit ​​groove.

9. The atomization device of claim 1, wherein, The liquid storage tank shell also includes an installation chamber and a suction nozzle; The mounting compartment is inserted into the inner cavity at one end of the outer shell and is interference-fitted with the outer shell; A first limiting shoulder is formed at the connection between the mounting chamber and the suction nozzle, and the first limiting shoulder abuts against the end face of the outer shell.

10. The atomization device of any one of claims 1-9, wherein, The outer shell gradually tapers towards its middle position from opposite ends along the extension direction, and the atomizing component and the power supply component are adapted to the shape of the inner wall of the outer shell; And / or, at least a portion of the liquid storage tank shell and / or the outer shell is a transparent or semi-transparent structure.