Atomization apparatus and atomization device

By designing the air-regulating component and the outer shell in the atomizing device, precise adjustment of the air intake is achieved, solving the problem that users cannot adjust the air intake to a suitable level and improving the user experience.

WO2026138249A1PCT designated stage Publication Date: 2026-07-02HG INNOVATION LTD

Patent Information

Authority / Receiving Office
WO · WO
Patent Type
Applications
Current Assignee / Owner
HG INNOVATION LTD
Filing Date
2025-11-14
Publication Date
2026-07-02

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Abstract

The present application relates to the technical field of atomization apparatuses, and provides an atomization apparatus and an atomization device. The atomization apparatus comprises a housing, an atomizer, and an air regulating member. The housing comprises an air inlet. The atomizer is used for atomizing an aerosol-generating substrate into an aerosol, and the atomizer is in airflow communication with the air inlet. The air regulating member is arranged close to the air inlet, comprises a first air regulating opening and a second air regulating opening, and has a first position and a second position relative to the housing, wherein the air inlet area of the first air regulating opening is different from that of the second air regulating opening. The air regulating member is configured such that, in the first position, the first air regulating opening is at least partially aligned with the air inlet, and in the second position, the second air regulating opening is at least partially aligned with the air inlet. By means of the atomization apparatus provided by the present application, a user can choose to intake air through the first air regulating opening or the second air regulating opening, so that precise regulation of the air intake volume is achieved, facilitating the matching between the air intake volume of the atomization apparatus and the power or product type of the atomization apparatus, thereby effectively improving user experience.
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Description

Atomizing device and atomizing equipment

[0001] Cross-references to related applications

[0002] This application claims priority to Chinese Patent Application No. 2024232050060, filed on December 24, 2024, entitled “Atomizing Device and Atomizing Equipment”, the entire contents of which are incorporated herein by reference. Technical Field

[0003] This application relates to the field of atomizing device technology, and more particularly to an atomizing device and atomizing equipment. Background Technology

[0004] Atomizing devices are devices that can atomize an aerosol matrix into an aerosol for user use. They are widely used in industries such as e-cigarettes, medical care, and beauty.

[0005] In related technologies, atomizing devices take in air through the air intake channel of the air intake bracket, and atomize the aerosol matrix into aerosol through the atomizing component. Then, the aerosol is discharged to the outside through the atomizing channel in the atomizing component for the user to inhale. Some atomizing devices have an air intake adjustment function for users. However, users often do not have the ability to adjust the air intake to a suitable level, resulting in a mismatch between the air intake of the atomizing device and the power or product type of the atomizing device, leading to a poor user experience.

[0006] Application content

[0007] In view of this, the purpose of this application is to provide an atomizing device that addresses the technical problem that some existing atomizing devices provide users with an air intake adjustment function, but users often lack the ability to adjust the air intake appropriately, resulting in a mismatch between the air intake of the atomizing device and the power or product type of the atomizing device, leading to a poor user experience.

[0008] To achieve the above objectives, the technical solution adopted in this application is as follows:

[0009] In one embodiment, an atomizing device is provided, comprising:

[0010] The outer casing has an air inlet;

[0011] Atomizer for atomizing an aerosol generating matrix into an aerosol, wherein the atomizer airflow is connected to the air inlet;

[0012] An air regulating component is disposed near the air inlet and has a first air regulating port and a second air regulating port. It has a first position and a second position relative to the outer casing, and the air inlet areas of the first air regulating port and the second air regulating port are different.

[0013] In the first position, the air regulating component is configured such that the first air regulating port and the air inlet are at least partially aligned; and in the second position, the second air regulating port and the air inlet are at least partially aligned.

[0014] In one embodiment, the outer shell includes a housing and an end cap. The housing has a receiving cavity with an opening at one end. The atomizer and the air regulating component are both disposed in the receiving cavity. The end cap covers the opening and has an air inlet. The first position and the second position are two extreme positions of the air regulating component relative to the end cap.

[0015] In one embodiment, the atomizing device further includes an air intake bracket, which is disposed between the air regulating component and the atomizer, and has an air intake channel that communicates with the air inlet and the airflow of the atomizer respectively.

[0016] In one embodiment, the atomizing device further includes a sealing element disposed between the air regulating element and the air intake bracket. The sealing element has a vent hole communicating with the air intake channel, and a vent groove communicating with the vent hole is provided on the side away from the air intake bracket.

[0017] In the first position, the air regulating component is configured such that the first air regulating port is at least partially aligned with the air inlet and the vent hole, respectively; and in the second position, the second air regulating port is at least partially aligned with the air inlet and the vent groove, respectively.

[0018] In one embodiment, a first guide rail is provided on the side of the seal away from the air intake bracket. The first guide rail extends along a preset direction. The first air regulating port and the second air regulating port are distributed along the preset direction. The air regulating component is slidably connected to the first guide rail so that the air regulating component has the first position and the second position relative to the end cover.

[0019] In one embodiment, the gas regulating component is provided with a first sliding portion on the side facing the sealing component. The first sliding portion extends along the preset direction and is slidably connected to the first guide rail.

[0020] In one embodiment, the air regulating component has an adjustment part protruding from the side away from the seal, the adjustment part being located between the first air regulating port and the second air regulating port, the air inlet extending along the preset direction, the adjustment part passing through the air inlet and being located on the side of the end cap away from the housing, the first position and the second position being two extreme positions of the adjustment part relative to the air inlet along the preset direction, and the end of the housing away from the opening having a mouthpiece communicating with the airflow of the atomizer.

[0021] In one embodiment, the end cap is provided with a second guide rail on the side facing the housing, and the gas regulating component is provided with a second sliding part on the side away from the sealing component, which is slidably connected to the second guide rail. Both the second guide rail and the second sliding part extend along the preset direction.

[0022] In one embodiment, the air intake bracket has a first mounting portion protruding from one end toward the seal, and the seal has a second mounting portion protruding from one end toward the air intake bracket, which cooperates with the first mounting portion. The second mounting portion is sleeved around the first mounting portion, the air intake channel passes through the first mounting portion, and the vent hole passes through the second mounting portion.

[0023] This application also provides an atomizing device, including the atomizing apparatus described in any of the above embodiments.

[0024] The beneficial effects of this application are:

[0025] This application provides an atomizing device, which includes a housing, an atomizer, and an air regulating component. The housing has an air inlet, through which the atomizer airflow for atomizing an aerosol generation matrix into an aerosol communicates with the air inlet. The air regulating component is disposed near the air inlet and has a first air regulating port and a second air regulating port, and has a first position and a second position relative to the housing. By setting the air inlet areas of the first air regulating port and the second air regulating port to be different, the air regulating component is configured such that the first air regulating port and the air inlet are at least partially aligned in the first position, and the second air regulating port and the air inlet are at least partially aligned in the second position. In this way, when the user adjusts the air regulating component to the first position relative to the outer shell, the external airflow can be delivered to the atomizer through the air inlet and the first air regulating port in sequence. When the user adjusts the air regulating component to the second position relative to the outer shell, the external airflow can be delivered to the atomizer through the air inlet and the second air regulating port in sequence. Since the air intake areas of the first air regulating port and the second air regulating port are different, the air intake volume can be precisely adjusted. This allows the user to choose to enter the atomizer through the first air regulating port or the second air regulating port according to their needs. This facilitates the matching of the air intake volume of the atomizer with the power or product type of the atomizer, effectively improving the user experience. Attached Figure Description

[0026] Figure 1 shows a perspective view of the atomizing device in some embodiments of this application;

[0027] Figure 2 shows a perspective view of the atomizing device without the end cap in some embodiments of this application;

[0028] Figure 3 shows a perspective view of the atomizing device without end caps and air regulating components in some embodiments of this application;

[0029] Figure 4 shows a perspective view of the atomizing device in some embodiments of this application, omitting the end cap, gas regulating element, and sealing element;

[0030] Figure 5 shows an exploded view of the atomizing device in some embodiments of this application;

[0031] Figure 6 shows an exploded view of the atomizing device in some embodiments of this application.

[0032] Key component symbols: 100-Atomizing device; 110-Outer shell; 111-Housing shell; 1111-Opening; 1112-Receiving cavity; 1113-Mouthpiece; 112-End cap; 1121-Air inlet; 1122-Second guide rail; 120-Air regulating component; 121-First air regulating port; 122-Second air regulating port; 123-First sliding part; 124-Adjusting part; 125-Second sliding part; 130-Air inlet bracket; 131-Air inlet channel; 132-First mounting part; 140-Sealing component; 141-Ventilation hole; 142-Ventilation groove; 143-First guide rail; 144-Second mounting part. Detailed Implementation

[0033] As shown in Figures 1, 5, and 6, in one embodiment, an atomizing device 100 is provided, relating to the field of atomizing device technology. The atomizing device 100 includes a housing 110, an atomizer, and an air regulating component 120.

[0034] The outer casing 110 has an air inlet 1121. An atomizer is used to atomize the aerosol generation matrix into an aerosol, and the airflow of the atomizer is connected to the air inlet 1121. An air regulating component 120 is disposed near the air inlet 1121 and has a first air regulating port 121 and a second air regulating port 122. It has a first position and a second position relative to the outer casing 110, and the air inlet areas of the first air regulating port 121 and the second air regulating port 122 are different.

[0035] In this configuration, the air regulating component 120 is arranged such that, in a first position, the first air regulating port 121 and the air inlet 1121 are at least partially aligned; and in a second position, the second air regulating port 122 and the air inlet 1121 are at least partially aligned. Specifically, in the first position, the first air regulating port 121 and the air inlet 1121 are in airflow communication; or in the second position, the second air regulating port 122 and the air inlet 1121 are in airflow communication.

[0036] In one embodiment, the atomizing device 100 configures the air regulating component 120 such that the first air regulating port 121 and the air inlet 1121 are at least partially aligned in a first position, and the second air regulating port 122 and the air inlet 1121 are at least partially aligned in a second position, by setting the air inlet areas of the first air regulating port 121 and the second air regulating port 122 to be different. In this way, when the user adjusts the airflow regulator 120 to the first position relative to the outer shell 110, the external airflow can be delivered to the atomizer sequentially through the air inlet 1121 and the first airflow regulator 121. When the user adjusts the airflow regulator 120 to the second position relative to the outer shell 110, the external airflow can be delivered to the atomizer sequentially through the air inlet 1121 and the second airflow regulator 122. Since the air intake areas of the first airflow regulator 121 and the second airflow regulator 122 are different, precise adjustment of the air intake volume can be achieved. This allows the user to choose whether to intake air through the first airflow regulator 121 or the second airflow regulator 122 according to their needs. This facilitates matching the air intake volume of the atomizing device 100 with its power or product type, effectively improving the user experience. This avoids the technical problem in the prior art where some atomizing devices 100 provide air intake volume adjustment functions, but users often lack the ability to adjust the appropriate air intake volume, resulting in a mismatch between the air intake volume and the power or product type of the atomizing device 100, leading to a poor user experience.

[0037] As shown in Figures 1, 2 and 5, in one embodiment, the outer shell 110 includes a housing 111 and an end cap 112. The housing 111 has a receiving cavity 1112 with an opening 1111 at one end. The atomizer and the air regulating component 120 are both disposed in the receiving cavity 1112. The end cap 112 covers the opening 1111 and has an air inlet 1121. The first position and the second position are the two extreme positions of the air regulating component 120 relative to the end cap 112.

[0038] In one exemplary embodiment, the air regulating component 120 can slide and translate relative to the air inlet 1121 (not shown in the figure), and the extreme positions at both ends of the sliding direction of the air regulating component 120 correspond to the first position and the second position.

[0039] In another exemplary embodiment, the air regulating component 120 can rotate relative to the air inlet 1121, as shown in Figures 2 and 3. The extreme positions at both ends of the rotation direction of the air regulating component 120 correspond to the first position and the second position.

[0040] In this embodiment, the housing 111 has a receiving cavity 1112 with an opening 1111 at one end. The atomizer and the airflow regulator 120 are both disposed within the receiving cavity 1112, so that the atomizer and the airflow regulator 120 can be installed in the receiving cavity 1112 through the opening 1111 during assembly, thereby accommodating and installing the atomizer and the airflow regulator 120. By covering the opening 1111 with the end cap 112, the atomizer and the airflow regulator 120 are stably installed in the receiving cavity 1112 under the limiting effect of the end cap 112.

[0041] By opening an air inlet 1121 on the end cover 112 and setting the first position and the second position as the two extreme positions of the air regulating component 120 relative to the end cover 112, the stroke of the air regulating component 120 is limited, thereby facilitating the user to accurately adjust the air regulating component 120 so that the airflow enters through the first air regulating port 121 or the second air regulating port 122.

[0042] As shown in Figures 1, 4 and 5, in one embodiment, the atomizing device 100 further includes an air intake bracket 130, which is disposed between the air regulating component 120 and the atomizer, and has an air intake channel 131 that communicates with the air intake port 1121 and the airflow of the atomizer respectively.

[0043] In this embodiment, by placing the air intake bracket 130 between the air regulating component 120 and the atomizer, and by opening an air intake channel 131 on the air intake bracket 130 that communicates with the air intake port 1121 and the airflow of the atomizer respectively, when the user adjusts the air regulating component 120 so that the end cap 112 of the air regulating component 120 is in the first position, the airflow can be delivered to the atomizer in sequence through the air intake port 1121, the first air regulating port 121 and the air intake channel 131; when the user adjusts the air regulating component 120 so that the end cap 112 of the air regulating component 120 is in the second position, the airflow can be delivered to the atomizer in sequence through the air intake port 1121, the second air regulating port 122 and the air intake channel 131.

[0044] As shown in Figures 2, 3 and 4, in one embodiment, the atomizing device 100 further includes a sealing element 140, which is disposed between the air regulating element 120 and the air intake bracket 130. The sealing element 140 has a vent hole 141 communicating with the air intake channel 131, and a vent groove 142 communicating with the vent hole 141 is provided on the side away from the air intake bracket 130.

[0045] In this configuration, the air regulating component 120 is arranged in a first position, with the first air regulating port 121 at least partially aligned with the air inlet 1121 and the vent 141, respectively. In a second position, the second air regulating port 122 is at least partially aligned with the air inlet 1121 and the vent 142, respectively.

[0046] In this embodiment, by placing the sealing element 140 between the air regulating element 120 and the air intake bracket 130, the gap between the air regulating element 120 and the air intake bracket 130 is sealed, thereby preventing airflow leakage through the gap between the air regulating element 120 and the air intake bracket 130, which would lead to a reduction in air intake efficiency.

[0047] By opening a vent hole 141 on the seal 140 that communicates with the air intake channel 131, and opening a vent groove 142 on the side of the seal 140 away from the air intake bracket 130 that communicates with the vent hole 141, and by configuring the air regulating member 120 such that when in the first position the first air regulating port 121 is at least partially aligned with the air intake port 1121 and the vent hole 141, and when the air regulating member 120 is configured in the second position the second air regulating port 122 is at least partially aligned with the air intake port 1121 and the vent groove 142.

[0048] In this way, when the user adjusts the airflow 120 in the first position relative to the end cap 112, the external airflow can be delivered to the atomizer sequentially through the air inlet 1121, the first airflow adjustment port 121, the air inlet hole, and the air inlet channel 131. At this time, the airflow is direct to the atomizer, and the airflow path is relatively short. When the user adjusts the airflow 120 in the second position relative to the end cap 112, the external airflow can be delivered to the atomizer sequentially through the air inlet 1121, the second airflow adjustment port 122, the ventilation groove 142, the air inlet hole, and the air inlet channel 131. At this time, the airflow needs to be diverted through the ventilation groove 142 to the air inlet hole, and then delivered to the atomizer through the air inlet hole and the air inlet channel 131. The airflow path is relatively long. Therefore, users can choose any of the above airflow methods according to their needs, effectively improving the user experience.

[0049] For example, the seal 140 can be integrally injection molded from silicone or rubber.

[0050] As shown in Figures 1 and 2, in one embodiment, a first guide rail 143 is provided on the side of the seal 140 away from the air intake bracket 130. The first guide rail 143 extends along a preset direction. The first air regulating port 121 and the second air regulating port 122 are distributed along the preset direction. The air regulating component 120 is slidably connected to the first guide rail 143 so that the air regulating component 120 has a first position and a second position relative to the end cover 112.

[0051] In this embodiment, a first guide rail 143 extending in a preset direction is provided on the side of the seal 140 away from the air intake bracket 130, and the air regulating component 120 is slidably connected to the first guide rail 143. This allows the air regulating component 120 to move to a first position or a second position relative to the end cover 112 in the preset direction. Simultaneously, by distributing the first air regulating port 121 and the second air regulating port 122 in the preset direction, when the air regulating component 120 moves to the first position relative to the end cover 112 in the preset direction, the first air regulating port 121 communicates with the air intake port 1121 and the vent hole 141, respectively. Furthermore, when the air regulating component 120 moves to the second position relative to the end cover 112 in the preset direction, the second air regulating port 122 communicates with the air intake port 1121 and the vent groove 142, respectively.

[0052] For example, the orthographic projection shape of the first guide rail 143 onto the seal 140 can be arc-shaped or straight-line-shaped.

[0053] As shown in Figures 2 and 6, in one embodiment, the gas regulating component 120 is provided with a first sliding part 123 on the side facing the sealing component 140. The first sliding part 123 extends along a preset direction and is slidably connected to the first guide rail 143.

[0054] In this embodiment, by providing a first sliding portion 123 extending in a preset direction on the side of the gas regulating member 120 facing the sealing member 140, and slidably connecting the first sliding portion 123 to the first guide rail 143, the gas regulating member 120 can slide along the first guide rail 143 through the first sliding portion 123, thereby enabling the gas regulating member 120 to move to a first position or a second position relative to the end cover 112 in a preset direction.

[0055] As shown in Figures 1, 2, and 6, in one embodiment, an adjustment part 124 protrudes from the side of the air regulating component 120 away from the seal 140. The adjustment part 124 is located between the first air regulating port 121 and the second air regulating port 122. The air inlet 1121 extends and opens in a preset direction. The adjustment part 124 passes through the air inlet 1121 and is located on the side of the end cap 112 away from the housing 111. The first position and the second position are two extreme positions of the adjustment part 124 relative to the air inlet 1121 in the preset direction. The end of the housing 111 away from the opening 1111 is provided with a mouthpiece 1113 that communicates with the airflow of the atomizer.

[0056] In this embodiment, an adjustment portion 124 is provided on the side of the air regulating member 120 away from the seal member 140, located between the first air regulating port 121 and the second air regulating port 122. The air inlet 1121 extends in a preset direction, and the adjustment portion 124 is provided on the side of the end cover 112 away from the housing 111, passing through the air inlet 1121. This allows the user to move the adjustment portion 124 relative to the air inlet 1121 by moving it, thereby moving the regulating member relative to the end cover 112 to the first position or the second position. This allows the first air regulating port 121 to communicate with the air inlet 1121 and the air inlet hole, or the second air regulating port 122 to communicate with the air inlet 1121 and the air inlet groove, respectively.

[0057] By setting the first and second positions as two extreme positions of the adjustment section 124 relative to the air inlet 1121 in a preset direction, the stroke of the adjustment section 124 is limited, thereby limiting the overall stroke of the air regulating component 120. This allows the user to precisely adjust the air regulating component 120 through the adjustment section 124 to allow airflow to enter through the first air regulating port 121 or the second air regulating port 122. A mouthpiece 1113, which communicates with the airflow of the atomizer, is provided at the end of the housing 111 away from the opening 1111, so that the user can inhale the aerosol generated by the atomizer through the mouthpiece 1113.

[0058] As shown in Figures 2, 5 and 6, in one embodiment, the end cap 112 is provided with a second guide rail 1122 on the side facing the housing 111, and the gas regulating component 120 is provided with a second sliding part 125 on the side away from the sealing component 140, which is slidably connected to the second guide rail 1122. Both the second guide rail 1122 and the second sliding part 125 extend along a preset direction.

[0059] In this embodiment, a second guide rail 1122 is provided on the side of the end cap 112 facing the housing 111, and a second sliding part 125, which is slidably connected to the second guide rail 1122, is provided on the side of the air regulating component 120 away from the seal 140. Both the second guide rail 1122 and the sliding part 125 extend along a preset direction. This allows the air regulating component 120 to slide along the second guide rail 1122 via the second sliding part 125, thereby enabling the air regulating component 120 to move relative to the end cap 112 to a first position or a second position along the preset direction. Thus, the smoothness, stability, and accuracy of the air regulating component 120 sliding along the preset direction are further improved through the cooperation of the second guide rail 1122 and the second sliding part 125.

[0060] For example, the orthographic projection shape of the second sliding part 125 on the air regulating member 120 can be arc-shaped or straight-shaped.

[0061] As shown in Figures 5 and 6, in one embodiment, the intake bracket 130 has a first mounting portion 132 protruding from one end facing the seal 140, and the seal 140 has a second mounting portion 144 protruding from one end facing the intake bracket 130, which cooperates with the first mounting portion 132. The second mounting portion 144 is sleeved around the first mounting portion 132, the intake channel 131 passes through the first mounting portion 132, and the vent 141 passes through the second mounting portion 144.

[0062] In this embodiment, a first mounting portion 132 is provided protruding on the side of the air intake bracket 130 facing the seal 140, and a second mounting portion 144 is provided protruding from the end of the seal 140 facing the air intake bracket 130 and sleeved on the first mounting portion 132. Under the limiting action of the first mounting portion 132 and the second mounting portion 144, the seal 140 and the air intake bracket 130 are stably connected, thereby keeping the vent hole 141 penetrating the second mounting portion 144 and the air intake channel 131 penetrating the first mounting portion 132 stably connected.

[0063] This application also provides an atomizing device, including the atomizing device 100 in the above embodiments.

[0064] The atomizing device has the atomizing device 100 in any of the above embodiments, and therefore has all the beneficial effects of the atomizing device 100, which will not be described in detail here.

Claims

1. An atomising device characterised in that, include: The outer casing has an air inlet; Atomizer for atomizing an aerosol generating matrix into an aerosol, wherein the atomizer airflow is connected to the air inlet; An air regulating component is disposed near the air inlet and has a first air regulating port and a second air regulating port. It has a first position and a second position relative to the outer casing, and the air inlet areas of the first air regulating port and the second air regulating port are different. In the first position, the air regulating component is configured such that the first air regulating port and the air inlet are at least partially aligned; and in the second position, the second air regulating port and the air inlet are at least partially aligned.

2. The atomization device of claim 1, wherein, The outer casing includes a housing and an end cap. The housing has a receiving cavity with one end open. The atomizer and the air regulating component are both disposed in the receiving cavity. The end cap covers the opening and has the air inlet. The first position and the second position are the two extreme positions of the air regulating component relative to the end cap.

3. The atomization device of claim 2, wherein, The air regulating component can slide and translate relative to the air inlet.

4. The atomization device of claim 2, wherein, The air regulating component is rotatable relative to the air inlet.

5. The atomization device of claim 2, wherein, The atomizing device also includes an air intake bracket, which is disposed between the air regulating component and the atomizer, and has an air intake channel that communicates with the air inlet and the airflow of the atomizer respectively.

6. The atomization device of claim 5, wherein, The atomizing device also includes a sealing element, which is disposed between the air regulating element and the air intake bracket. The sealing element has a vent hole communicating with the air intake channel, and a vent groove communicating with the vent hole is provided on the side away from the air intake bracket. In the first position, the air regulating component is configured such that the first air regulating port is at least partially aligned with the air inlet and the vent hole, respectively; and in the second position, the second air regulating port is at least partially aligned with the air inlet and the vent groove, respectively.

7. The atomizing device according to claim 6, characterized in that, The sealing element is provided with a first guide rail on the side away from the air intake bracket. The first guide rail extends along a preset direction. The first air regulating port and the second air regulating port are distributed along the preset direction. The air regulating element is slidably connected to the first guide rail so that the air regulating element has the first position and the second position relative to the end cover.

8. The atomization device of claim 7, wherein, The orthographic projection of the first guide rail onto the seal is either arc-shaped or straight-line-shaped.

9. The atomization device of claim 7, wherein, The gas regulating component has a first sliding part on the side facing the sealing component. The first sliding part extends along the preset direction and is slidably connected to the first guide rail.

10. The atomizing device according to any one of claims 1 to 9, characterized in that An adjustment part is provided on the side of the air regulating component away from the seal. The adjustment part is located between the first air regulating port and the second air regulating port. The air inlet extends along the preset direction. The adjustment part passes through the air inlet and is located on the side of the end cap away from the housing. The first position and the second position are the two extreme positions of the adjustment part relative to the air inlet along the preset direction. A mouthpiece is provided at the end of the housing away from the opening, which is in communication with the airflow of the atomizer.

11. The atomizing device according to any one of claims 6 to 9, wherein The end cap is provided with a second guide rail on the side facing the housing, and the gas regulating component is provided with a second sliding part on the side away from the sealing component, which is slidably connected to the second guide rail. Both the second guide rail and the second sliding part extend along the preset direction.

12. The atomization device of claim 11, wherein, The orthographic projection shape of the second sliding part on the air regulating component is arc-shaped or straight-line-shaped.

13. The atomizing device of any one of claims 6 to 9, wherein, The air intake bracket has a first mounting portion protruding from one end toward the seal, and the seal has a second mounting portion protruding from one end toward the air intake bracket, which cooperates with the first mounting portion. The second mounting portion is sleeved around the first mounting portion, the air intake channel passes through the first mounting portion, and the vent hole passes through the second mounting portion.

14. The atomizing device of any one of claims 6 to 9, wherein, The seal is made of silicone or rubber through injection molding.

15. An atomising device characterised in that, The atomizing device includes any one of claims 1 to 14.