An electronic atomizer with a flavor-enhancing structure

By designing flavor-enhancing components and a sealing lever structure in the electronic atomizer, the problem of unstable aroma caused by the compatibility of flavorings and e-liquids is solved, ensuring that the aroma is released smoothly during use and improving the user's vaping experience.

CN224440431UActive Publication Date: 2026-07-03ENBURY (DONGGUAN) ELECTRONIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ENBURY (DONGGUAN) ELECTRONIC TECH CO LTD
Filing Date
2025-07-25
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

When preparing e-liquids mixed with flavorings, compatibility issues between different flavorings and e-liquids can lead to situations where the flavor is too strong or too weak after prolonged storage, affecting the user's vaping experience.

Method used

Design an electronic atomizer with an aroma-enhancing structure, comprising a shell, mouthpiece, cartridge, atomizing component, and aroma-enhancing component. The aroma-enhancing component includes a container and a sealing lever. The container contains aroma-enhancing particles. The sealing lever initially seals the atomizing component. When in use, pulling the sealing lever allows the aroma produced by the aroma-enhancing particles to participate in the inhalation process and mix with the atomized e-liquid through the airflow channel.

Benefits of technology

It effectively avoids the instability of aroma caused by the compatibility issues between flavorings and e-liquids, ensuring that the aroma is not lost when not in use and is smoothly released when in use, thus improving the user's vaping taste and experience.

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Abstract

This application relates to an electronic atomizer with an aroma-enhancing structure, comprising a housing and an inhalation mouthpiece, a cartridge, and an atomizing component sequentially disposed on the housing. The cartridge is used to hold e-liquid and also includes an aroma-enhancing component disposed within the housing. The aroma-enhancing component includes a receiving box and a sealing lever. The receiving box contains aroma-enhancing particles and has an airflow channel that connects the atomizing component and the inhalation mouthpiece. The sealing lever is movably inserted within the receiving box and is used to seal the atomizing component. When the user uses it for the first time, they pull the sealing lever until it separates from the atomizing component. This application has the effect of improving the taste during the user's inhalation process.
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Description

Technical Field

[0001] This application relates to the field of electronic atomizers, and more particularly to an electronic atomizer with an aroma-enhancing structure. Background Technology

[0002] An electronic cigarette is an electronic device that typically consists of a housing, cartridge, vapor chamber, atomizing components, and a battery. It works by heating e-liquid through a heater, which atomizes the e-liquid to produce vapor. Users obtain nicotine or other chemicals by inhaling this vapor, thus eliminating the need to burn tobacco and serving as a tobacco substitute.

[0003] To meet the diverse needs of users, flavorings are added to the e-liquid during the production process to create e-liquids with different flavors (such as orange, strawberry, etc.). When the atomizing component is working, the e-liquid mixed with flavorings released from the cartridge is atomized for the user to inhale.

[0004] When preparing e-liquids mixed with flavorings, different flavorings have different solubilities with e-liquids. Therefore, it is also necessary to pay attention to the compatibility between different flavorings and e-liquids to reduce the probability of flavorings and e-liquids separating into layers. However, as the storage time increases, such situations cannot be completely avoided, which can easily lead to users experiencing overly strong or weak flavors during vaping. There is room for improvement. Utility Model Content

[0005] In order to improve the taste during the user's inhalation process, this application provides an electronic atomizer with an aroma-enhancing structure.

[0006] The electronic atomizer with a flavor-enhancing structure provided in this application adopts the following technical solution:

[0007] An electronic atomizer with a flavoring structure includes a housing and an inhalation mouthpiece, a cartridge, and an atomizing component sequentially disposed on the housing. The cartridge is used to hold e-liquid. The atomizing component is also included within the housing and includes a receiving box and a sealing rod. Flavoring particles are disposed within the receiving box, and the receiving box has an airflow channel that connects the atomizing component and the inhalation mouthpiece. The sealing rod is movably inserted within the receiving box and is used to seal the atomizing component. When the user uses it for the first time, they pull the sealing rod until it separates from the atomizing component.

[0008] By adopting the above technical solution, the flavoring component can add additional flavoring particles, independent of the flavoring in the e-liquid. This avoids the situation where the flavoring in the e-liquid is too strong or too weak due to compatibility issues, thus improving the taste during the user's inhalation. The sealing lever initially seals the atomizing component, preventing the aroma generated by the flavoring particles from being lost when not in use, and also preventing foreign objects from entering the atomizing component and affecting its use. When using it for the first time, pulling the sealing lever allows the aroma generated by the flavoring particles to participate in the inhalation process through the airflow channel.

[0009] Preferably, a silicone plug is provided at one end of the sealing rod near the atomizing component.

[0010] By adopting the above technical solution, the silicone plug can better seal the atomizing component, which to some extent solves the problem of aroma leakage from the seal caused by the flavoring particles. It ensures that the aroma can be mixed with the atomized e-liquid through the airflow channel, improving the flavoring effect and the user's taste. At the same time, the silicone plug is soft and does not easily damage the atomizing component.

[0011] Preferably, the connection between the sealing rod and the silicone plug is provided with a break portion. When the user pulls the sealing rod until the silicone plug abuts against the receiving box and continues to apply force to the sealing rod, the sealing rod and the silicone plug separate along the break portion.

[0012] By adopting the above technical solution, the broken part is designed so that when the sealing rod is pulled to a certain extent and force is applied continuously, the silicone plug separates from the sealing rod and remains in the container. This ensures that the aroma produced by the flavoring particles can smoothly enter the mouthpiece through the airway after separation, while avoiding obstruction of the airway by the silicone plug, thus ensuring the flavoring effect and the smoothness of inhalation.

[0013] Preferably, a limiting stage is provided inside the receiving box, which is used to limit the maximum distance that the silicone plug can move along the receiving box.

[0014] By adopting the above technical solution, the limiting stage restricts the extreme distance of the silicone plug's movement along the container. On the one hand, it can prevent the excessive movement of the silicone plug from affecting the fit between the sealing rod and the container, as well as the normal operation of the flavoring component. On the other hand, it can ensure that the silicone plug abuts against the container in the appropriate position, maintain the structural stability of the flavoring component, and ensure that the aroma generated by the flavoring particles can enter the inhalation mouth along the designed path, thus ensuring the flavoring effect.

[0015] Preferably, the length of the sealing rod is greater than the sum of the length of the suction nozzle and the length of the receiving box.

[0016] By adopting the above technical solution, the length of the sealing rod is greater than the sum of the length of the inhalation mouth and the length of the container, so that the user has enough operating space when pulling the sealing rod, making it convenient for the user to pull the sealing rod and ensuring that the sealing rod can be easily separated from the atomizing component during the first use, so that the flavoring component can work normally and release the aroma of the flavoring particles.

[0017] Preferably, the suction nozzle is magnetically attached to the housing.

[0018] By adopting the above technical solution, the inhalation nozzle and the housing are magnetically attached, making it easy for users to disassemble and install the inhalation nozzle, and convenient to clean or replace the inhalation nozzle, thus improving the user experience.

[0019] Preferably, the container is provided with a cover, and the cover is detachably connected to the container.

[0020] By adopting the above technical solution, the lid on the container can be detachably connected to the container, making it easy to add or replace fragrance particles when needed, thus meeting the personalized needs of different users for fragrance types and concentrations.

[0021] Preferably, the size of the airflow channel is smaller than the size of the flavoring particles.

[0022] By adopting the above technical solution, the size of the airflow channel is smaller than the size of the flavoring particles, which effectively solves the problem of flavoring particles entering the airflow channel or even the atomizing component and mouthpiece. This avoids the flavoring particles clogging the atomizing component or affecting the smoothness of inhalation, ensuring that the flavoring particles can stably release aroma in the container, while ensuring that the aroma produced by the atomized e-liquid and flavoring particles can be properly mixed, thus improving the user's inhalation experience.

[0023] In summary, this application includes at least one of the following beneficial technical effects:

[0024] 1. The sealing lever initially seals the atomizing component, which can prevent the aroma generated by the flavoring particles from being lost when not in use, and at the same time prevent foreign objects from entering the atomizing component and affecting its use. When using it for the first time, pulling the sealing lever allows the aroma generated by the flavoring particles to participate in the inhalation process through the airway.

[0025] 2. The design of the break-off section ensures that when the sealing rod is pulled to a certain extent and force is applied continuously, the silicone plug separates from the sealing rod, and the silicone plug remains in the receiving box;

[0026] 3. The length of the sealing lever is greater than the sum of the length of the suction nozzle and the length of the container, so that the user has enough operating space when pulling the sealing lever, making it convenient for the user to pull the sealing lever. Attached Figure Description

[0027] Figure 1This is a schematic diagram of the overall structure of an electronic atomizer with a flavor-enhancing structure according to an embodiment of this application.

[0028] Figure 2 yes Figure 1 A schematic diagram of an electronic atomizer with a flavor-enhancing structure after the sealing lever has been removed.

[0029] Figure 3 yes Figure 1 A cross-sectional schematic diagram of an electronic atomizer with a flavor-enhancing structure.

[0030] Figure 4 yes Figure 2 A schematic diagram of the cross-sectional structure of an electronic atomizer with a flavor-enhancing structure after the sealing lever has been removed.

[0031] Figure 5 yes Figure 4 A magnified structural diagram of part A in the middle.

[0032] Figure 6 This is a schematic diagram of the sealing rod in an electronic atomizer with a flavor-enhancing structure according to an embodiment of this application.

[0033] Explanation of reference numerals in the attached drawings: 1. Shell; 2. Mouthpiece; 3. Cartridge; 4. Atomizing component; 5. Flavoring component; 51. Container; 52. Sealing rod; 6. Silicone plug; 7. Fold; 8. Limiting platform; 9. Flavoring particles; 10. Airflow channel; 11. Cover. Detailed Implementation

[0034] The following is in conjunction with the appendix Figure 1-6 This application will be described in further detail.

[0035] This application discloses an electronic atomizer with a flavor-enhancing structure. (Refer to...) Figures 1-6 An electronic atomizer with a flavoring structure includes a housing 1 and an inhalation mouthpiece 2, a cartridge 3, and an atomizing component 4 sequentially arranged on the housing 1. The cartridge 3 is used to hold e-liquid, and the atomizing component 4 is used to atomize the e-liquid flowing out along the cartridge 3. The inhalation mouthpiece 2 is in direct contact with the user's mouth, allowing the user to inhale the atomized e-liquid. It also includes a flavoring component 5, which is disposed inside the housing 1. The flavoring component 5 includes a container 51 and a sealing rod 52. Flavoring particles 9 are disposed inside the container 51, and an airflow channel 10 is opened on the container 51, which connects the atomizing component 4 and the inhalation mouthpiece 2. The sealing rod 52 is movably inserted inside the container 51 and is used to seal the atomizing component 4. When the user uses it for the first time, he pulls the sealing rod 52 until the sealing rod 52 separates from the atomizing component 4.

[0036] First of all, it should be noted that the atomizing component 4 is an essential component for e-liquid atomization and is a conventional component in the field of electronic atomizers. Its specific composition and working principle will not be elaborated here.

[0037] Specifically, refer to Figures 3-6 A silicone plug 6 is provided at one end of the sealing lever 52 near the atomizing component 4. In the initial state (i.e., before the electronic atomizer is used by the user), the silicone plug 6 is located inside the atomizing component 4. The silicone plug 6 can better achieve the sealing effect of the atomizing component 4, which to some extent solves the problem of the aroma generated by the flavoring particles 9 leaking from the seal. It ensures that the aroma can be mixed with the atomized e-liquid through the airflow channel 10, improving the flavoring effect and the user's taste. At the same time, the silicone plug 6 is soft and does not easily damage the atomizing component 4.

[0038] Furthermore, a break portion 7 is provided at the connection between the sealing rod 52 and the silicone plug 6. When the user pulls the sealing rod 52 until the silicone plug 6 abuts against the receiving box 51 and continues to apply force to the sealing rod 52, the sealing rod 52 and the silicone plug 6 separate along the break portion 7. The break portion 7 is integrally formed with the sealing rod 52 and is located at the end where the sealing rod 52 connects to the silicone plug 6. The diameter of the break portion 7 is smaller than the diameter of the sealing rod 52, and the break portion 7 is connected to the silicone plug 6. One end of the connector is conical, so a portion of the broken part 7 is connected to the silicone plug 6. The broken part 7 allows the silicone plug 6 to separate from the sealing rod 52 when the sealing rod 52 is pulled to a certain extent and force is applied continuously. The silicone plug 6 remains in the container 51. This ensures that the aroma produced by the flavoring particles 9 can smoothly enter the mouthpiece 2 through the airflow channel 10 after separation, while avoiding obstruction of the airway by the silicone plug 6, thus ensuring the flavoring effect and smooth inhalation.

[0039] Correspondingly, the length of the sealing rod 52 is greater than the sum of the lengths of the inhalation mouthpiece 2 and the container 51. It should be noted that during assembly, the end of the sealing rod 52 away from the one connected to the silicone plug 6 needs to be inserted into the container 51 and pass through the inhalation mouthpiece 2, extending outward from the inhalation mouthpiece 2. The length of the sealing rod 52 is greater than the sum of the lengths of the inhalation mouthpiece 2 and the container 51, so that the user has enough operating space when pulling the sealing rod 52, making it convenient for the user to pull the sealing rod 52. This ensures that the sealing rod 52 can be easily separated from the atomizing component 4 during initial use, allowing the aroma-enhancing component 5 to work normally and release the aroma of the aroma-enhancing particles 9.

[0040] Meanwhile, a limiting platform 8 is provided inside the receiving box 51 to limit the maximum distance the silicone plug 6 can move along the receiving box 51. The limiting platform 8 is integrally formed with the receiving box 51. The limiting platform 8 limits the maximum distance the silicone plug 6 can move along the receiving box 51. On the one hand, it can prevent the silicone plug 6 from moving too much and affecting the fit between the sealing rod 52 and the receiving box 51 and the normal operation of the fragrance-enhancing component 5. On the other hand, it can ensure that the silicone plug 6 abuts against the receiving box 51 in the appropriate position, maintain the structural stability of the fragrance-enhancing component 5, and ensure that the aroma generated by the fragrance-enhancing particles 9 can enter the inhalation mouth 2 according to the designed path, thus ensuring the fragrance-enhancing effect.

[0041] On the other hand, the container 51 is provided with a lid 11, which is detachably connected to the container 51. For example, a rubber ring is provided along the circumferential edge of the lid 11. When the lid 11 is closed on the container 51, the rubber ring, being soft and easily deformable, fills the gap between the lid 11 and the container 51, thus achieving the purpose of the lid 11 closing on the container. The detachable connection between the lid 11 and the container 51 facilitates the addition or replacement of the fragrance particles 9 when needed, meeting the personalized needs of different users for fragrance types and concentrations.

[0042] On the other hand, the size of the airflow channel 10 is smaller than the size of the flavoring particles 9, which effectively solves the problem of flavoring particles 9 entering the airflow channel 10 or even the atomizing component 4 and the mouthpiece 2. This avoids the flavoring particles 9 clogging the atomizing component 4 or affecting the smoothness of inhalation, ensuring that the flavoring particles 9 can stably release aroma in the container 51, while ensuring that the aroma produced by the atomized e-liquid and the flavoring particles 9 can be properly mixed, thus improving the user's inhalation experience.

[0043] It should be noted that the flavoring particles 9 are composed of a matrix, flavoring, filler and other additives, which will not be elaborated on here. During the user's inhalation, when the e-liquid atomized by the atomizing component 4 reaches the container 51 along the airflow channel 10, the flavoring particles 9 release aroma and mix with the atomized e-liquid.

[0044] Reference Figure 2 and Figure 3 The suction nozzle 2 and the housing 1 are magnetically attached.

[0045] Specifically, in this embodiment, a magnetic block (not shown in the figure) is provided on the housing 1, and a magnetic material that can magnetically attract and cooperate with the magnetic block is installed at the end of the suction nozzle 2 connected to the housing 1; in another embodiment, magnetic blocks are respectively provided on the housing 1 and the suction nozzle 2, and the opposite magnetic poles of the magnetic block on the housing 1 and the magnetic block on the suction nozzle 2 attract each other to enhance the magnetic attraction.

[0046] Meanwhile, the magnetic block can be a strong nickel-cobalt magnet. This makes it easy for users to disassemble and install the inhalation nozzle 2, and facilitates cleaning or replacement of the inhalation nozzle 2, thus improving the user experience.

[0047] The implementation principle of an electronic atomizer with an aroma-enhancing structure in this application embodiment is as follows: the aroma-enhancing component 5 can add additional aroma-enhancing particles 9, which are independent of the flavoring in the e-liquid, avoiding the situation where the flavoring in the e-liquid is too strong or too weak due to compatibility issues, thus improving the taste during the user's inhalation process; the sealing lever 52 initially seals the atomizing component 4, which can prevent the aroma generated by the aroma-enhancing particles 9 from being lost when not in use, and at the same time prevent foreign objects from entering the atomizing component 4 and affecting the use. When used for the first time, pulling the sealing lever 52 allows the aroma generated by the aroma-enhancing particles 9 to participate in the inhalation process through the airflow channel 10.

[0048] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. An electronic atomizer with a flavoring structure, comprising a shell (1) and, sequentially arranged on the shell (1), a suction nozzle (2), a cartridge (3) for containing tobacco tar, and an atomizing assembly (4), characterized in that: It also includes a fragrance enhancement component (5), which is disposed inside the housing (1). The fragrance enhancement component (5) includes a receiving box (51) and a sealing rod (52). The receiving box (51) contains fragrance enhancement particles (9). The receiving box (51) has an air passage (10) that connects to the atomizing component (4) and the inhalation mouth (2). The sealing rod (52) is movably inserted into the receiving box (51) and is used to block the atomizing component (4). When the user uses it for the first time, he pulls the sealing rod (52) until the sealing rod (52) separates from the atomizing component (4).

2. The electronic atomizer with a flavoring structure according to claim 1, characterized in that: A silicone plug (6) is provided at one end of the sealing rod (52) near the atomizing component (4).

3. The electronic atomizer with flavor-enhancing structure according to claim 2, characterized in that: A break portion (7) is provided at the connection between the sealing rod (52) and the silicone plug (6). When the user pulls the sealing rod (52) until the silicone plug (6) abuts against the receiving box (51) and continues to apply force to the sealing rod (52), the sealing rod (52) and the silicone plug (6) separate along the break portion (7).

4. The electronic atomizer with flavoring structure according to claim 3, characterized in that: The accommodating box (51) is provided with a limiting stage (8), which is used to limit the maximum distance that the silicone plug (6) can move along the accommodating box (51).

5. The electronic atomizer with flavor-enhancing structure according to claim 1, characterized in that: The length of the sealing rod (52) is greater than the sum of the length of the suction nozzle (2) and the length of the container (51).

6. The electronic atomizer with flavor-enhancing structure according to claim 1, characterized in that: The suction nozzle (2) is magnetically attached to the housing (1).

7. The electronic atomizer with flavor-enhancing structure according to claim 1, characterized in that: The container (51) is provided with a cover (11), and the cover (11) is detachably connected to the container (51).

8. The electronic atomizer with flavor-enhancing structure according to claim 1, characterized in that: The size of the air passage (10) is smaller than the size of the flavoring particles (9).