An electronic cigarette atomization control device
By introducing a septum and an inverted frame structure into the electronic cigarette atomizer to block saliva, and combining this with an auxiliary structure to control the amount of smoke, the problems of excessive smoke output and saliva ingress are solved, improving the user experience and device performance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN OUYAFENG TECH CO LTD
- Filing Date
- 2025-04-07
- Publication Date
- 2026-06-09
AI Technical Summary
Existing electronic cigarette atomizers produce excessive smoke during use, causing users to choke on their throats and lungs. Saliva entering the mouthpiece can also cause unpleasant odors and damage to the device.
An electronic cigarette atomization control device was designed, comprising an atomizer mouthpiece body, an inner liner, a separator, and an inverted frame. The separator prevents saliva from entering the inner liner, the inverted frame collects saliva, and the amount of smoke is controlled by a smoke hole block. The auxiliary structure includes a plug, a wire hanger, a magnetic block, and a baffle plate. The magnetic force is used to fix the baffle plate to control e-liquid leakage.
It effectively prevents saliva from entering the atomizer, avoiding reduced vapor production and equipment damage, improving user experience and equipment lifespan, and achieving precise control of vapor production.
Smart Images

Figure CN224330358U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of electronic cigarette atomizer technology, specifically to an electronic cigarette atomization control device. Background Technology
[0002] The atomizer is the core component of an e-cigarette, responsible for heating and atomizing e-liquid into an aerosol for the user to inhale. The atomization effect and taste are influenced by factors such as heating temperature, airflow speed, and e-liquid type. Higher heating temperatures result in better atomization, but excessively high temperatures can cause the e-liquid to burn, affecting taste and health. Too fast an airflow speed can lead to insufficient atomization and a rough taste; too slow an airflow speed can result in insufficient vapor production. The composition and viscosity of different e-liquids also affect atomization and taste. The advantages of atomizers include high controllability, allowing users to adjust heating temperature, airflow speed, and e-liquid type according to personal preference for different tastes and experiences; easy cleaning, as they are disassembled for washing to maintain hygiene; and high durability, with high-quality atomizers having a longer lifespan. The atomizer is a key component determining the atomization effect and taste of an e-cigarette, and users can choose a suitable atomizer according to their personal preferences to obtain the best e-cigarette experience.
[0003] Publication number CN219556336U discloses an electronic cigarette atomization control device and an electronic cigarette. The device is disposed between a first oil reservoir and a second oil reservoir via an isolator to prevent the flow of the first e-liquid to the second e-liquid. The atomizer assembly includes at least a first atomizer and a second atomizer. The first atomizer is disposed near the first oil reservoir and atomizes the first e-liquid. The second atomizer is disposed near the second oil reservoir and atomizes the second e-liquid. A controller is connected to the first atomizer and the second atomizer respectively. The controller is configured to switch the activation of the first atomizer and the second atomizer to achieve stable and reliable electronic cigarette atomization. This application can block the flow of e-liquid stored between two adjacent oil reservoirs, avoid the influence of uneven e-liquid distribution, and achieve a balance in the atomized content of aerosol e-liquid inhaled by the user in the early and late stages of inhalation.
[0004] The aforementioned technology utilizes a first atomizer and a second atomizer to enhance the inhalation effect. However, when the mouthpiece of a typical vaporizer emits smoke, the excessive amount of smoke can cause the user's throat and lungs to be choked by the smoke, and the user's saliva can enter the mouthpiece, resulting in an unpleasant odor inside the mouthpiece.
[0005] Therefore, in view of this, we have studied and improved the existing shortcomings and proposed an electronic smoke control device. Utility Model Content
[0006] The purpose of this invention is to provide an electronic cigarette atomization control device to solve the problems mentioned in the background art.
[0007] To achieve the above objectives, this utility model provides the following technical solution: an electronic cigarette atomization control device, comprising: an atomizer mouthpiece body, wherein a smoke guiding cavity is provided inside the atomizer mouthpiece body, an inner liner is provided inside the smoke guiding cavity, a cavity is provided inside the inner liner, a rectangular opening is provided at the bottom end of the inner liner, an inner wall is provided inside the inner liner, partitions are fixedly provided at equal intervals on the inner side of the inner wall, an inverted frame is fixedly provided on the surface of the gap between the partitions, an inner cavity is provided inside the inverted frame, and a rectangular opening is provided at the top end of the inverted frame;
[0008] The upper end of the smoke guiding chamber is provided with a smoke outlet, and the outer side of the top of the atomizer mouthpiece body is provided with an insertion hole, and the top of the insertion hole is provided with an auxiliary structure.
[0009] Furthermore, the partition is C-shaped, and the upper, middle, and lower partitions on the inner wall surface have different areas, which facilitates the partition's ability to block the user's saliva from entering.
[0010] Furthermore, the inverted frame has an inclined cross-section, which allows it to receive saliva introduced from the top port of the inner liner.
[0011] Furthermore, the diameter of the smoke hole block is smaller than the width of the smoke outlet, which facilitates the control of the smoke introduction by the smoke hole block.
[0012] Furthermore, the auxiliary structure includes a hanging wire, a plug, a baffle plate, and a magnetic block. The top of the insertion hole is provided with a plug, the top of the plug is provided with a hanging wire, one end of the hanging wire is provided with a magnetic block, the outside of the magnetic block is provided with a baffle plate, and a circular through hole is opened in the middle of the surface of the baffle plate to facilitate the discharge of flue gas.
[0013] Furthermore, the magnetic block and the resist plate are magnetically connected, which facilitates the adjustment of the resist plate's position.
[0014] Furthermore, the hanging wire and the magnetic block are fixedly connected to prevent the magnetic block from falling off.
[0015] Compared with the prior art, the beneficial effects of this utility model are:
[0016] 1. This utility model allows smoke generated inside the atomizer mouthpiece to enter the inner liner. The smoke inside the inner liner is then discharged through the smoke hole block, which discharges the smoke through the smoke outlet. When the user's saliva flows down the inside of the smoke outlet or the inside of the smoke guiding chamber, the inverted frame can receive the user's saliva. This reduces the amount of smoke released by the smoke hole block, and the inverted frame can collect the user's saliva introduced into the inner wall of the smoke guiding chamber or the inside of the smoke outlet.
[0017] 2. In this utility model, a plug is inserted into the inside of the socket, and the hanging wire and magnetic block connect the baffle plate. The baffle plate is located at the upper end of the inside of the smoke outlet, so that the baffle plate can prevent the backflow of e-liquid. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the structure of the first cigarette holder body of this utility model;
[0019] Figure 2 This is a schematic diagram of the structure of the second cigarette holder body of this utility model;
[0020] Figure 3 This is a schematic diagram of the cross-sectional structure of the first cigarette holder body of this utility model;
[0021] Figure 4 This is a schematic diagram of the cross-sectional structure of the second cigarette holder body of this utility model;
[0022] Figure 5 This is a schematic diagram of the cross-sectional structure of the first inner liner of this utility model;
[0023] Figure 6 This is a schematic diagram of the cross-sectional structure of the second inner liner of this utility model.
[0024] In the diagram: 1. Atomizer mouthpiece body; 2. Smoke outlet; 3. Auxiliary structure; 31. Wire hanger; 32. Plug; 33. Baffle plate; 34. Magnetic block; 4. Insertion hole; 5. Smoke guide chamber; 6. Inner liner; 7. Smoke hole block; 8. Inverted frame; 9. Partition; 10. Inner wall. Detailed Implementation
[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0026] like Figures 1-6 As shown, an electronic cigarette atomization control device includes: an atomizer mouthpiece body 1, a smoke guiding chamber 5 is provided inside the atomizer mouthpiece body 1, an inner liner 6 is provided inside the smoke guiding chamber 5, a cavity is provided inside the inner liner 6, a rectangular opening is provided at the bottom of the inner liner 6, an inner wall 10 is provided inside the inner liner 6, partitions 9 are fixedly provided at equal intervals on the inner wall 10, an inverted frame 8 is fixedly provided on the surface of the gap between the partitions 9, an inner cavity is provided inside the inverted frame 8, and a rectangular opening is provided at the top of the inverted frame 8.
[0027] The upper end of the smoke guiding chamber 5 is provided with a smoke outlet 2, and the outer side of the top of the atomizer mouthpiece body 1 is provided with an insertion hole 4, and the top of the insertion hole 4 is provided with an auxiliary structure 3.
[0028] As for the rest, since the inner liner 6 has a cavity inside, when the user's saliva enters the inner liner 6, the partition 9 causes the user's saliva to remain on the top of the partition 9, and the inverted frame 8 can collect a large amount of saliva, and the smoke hole block 7 can reduce the amount of smoke discharged from the atomizer mouthpiece body 1. The user can remove the smoke hole block 7 to restore the normal amount of smoke discharged from the smoke outlet 2.
[0029] This has resulted in the following effects and novel technologies:
[0030] This utility model provides an electronic cigarette atomization control device. Through ingenious structural design, it effectively solves the problems of reduced vapor production and device damage caused by saliva entering the atomizer during electronic cigarette use, and improves the user experience. The inner liner 6 and partition 9 are designed as follows: The atomizer mouthpiece body 1 has a smoke guiding chamber 5 inside, and the inner liner 6 is installed inside the chamber. A rectangular opening is opened at the bottom of the inner liner 6, and a partition 9 is installed on the inner side. An inverted frame 8 is fixed to the surface of the gap between the partition 9 and the inner liner 6. This design divides the inner liner 6 into upper and lower parts, and the partition 9 prevents saliva from entering the upper part of the inner liner 6. The inverted frame 8 collects saliva entering from the lower part of the inner liner 6, effectively preventing saliva from mixing with e-liquid, avoiding reduced smoke volume and equipment damage. The smoke outlet block design 7: A smoke outlet 2 is located at the upper end of the smoke guiding chamber 5, equipped with a smoke outlet block 7. The diameter of the smoke outlet block 7 is smaller than the width of the smoke outlet 2, which controls the amount of smoke output and prevents excessive smoke loss. Users can remove the smoke outlet block 7 as needed to restore the normal amount of smoke emitted from the smoke outlet 2. The inverted frame design 8: An inner cavity is provided on the inner side of the inverted frame 8, with a rectangular opening at the top. The cross-section is an inclined surface. The inner liner 6 receives saliva entering from the top, further improving the collection effect. The technical effect is to effectively prevent saliva from entering the atomizer mouthpiece body 1: through the double blocking of the partition 9 and the inverted frame 8, saliva is effectively prevented from entering the atomizer interior, avoiding problems such as e-liquid dilution and reduced vapor production, ensuring vapor quality and device lifespan. The vapor release is controlled: the smoke hole block 7 can control the vapor release as needed to meet different user needs, improving the user experience and enhancing cleaning convenience: the inner liner 6 and partition 9 are designed for easy disassembly and cleaning, facilitating device hygiene maintenance. The innovation lies in the double blocking mechanism: combining the partition 9 and the inverted frame 8 achieves more effective saliva blocking. The adjustable vapor release: the smoke hole block 7 design provides flexibility in controlling vapor release. The ingenious structural design: the inner liner 6, partition 9, inverted frame 8, and other components are cleverly designed, with clear functions and a reasonable structure. This utility model, through its ingenious structural design, effectively solves the saliva problem during electronic cigarette use, improves the user experience and device performance, and has high practical value and market prospects.
[0031] like Figures 1-6As shown, an electronic cigarette atomization control device includes an auxiliary structure 3 comprising a hanging wire 31, a plug 32, a baffle plate 33, and a magnetic block 34. A plug 32 is secured at the top of the insertion hole 4, a hanging wire 31 is attached to the top of the plug 32, a magnetic block 34 is attached to one end of the hanging wire 31, and a baffle plate 33 is located on the outer side of the magnetic block 34. A circular through hole is formed in the middle of the surface of the baffle plate 33.
[0032] As the plug 32 is inserted into the inside of the socket 4, the hanging wire 31 at the top of the plug 32, together with the magnetic block 34, installs the baffle 33 inside the upper part of the smoke outlet 2. A through hole is opened in the middle of the inner side of the baffle 33. The baffle 33 can prevent most of the e-liquid from being exposed from the inside of the smoke outlet 2. The designer can reduce the diameter of the through hole in the middle of the inner side of the baffle 33 to control the volume of e-liquid discharged from the inside of the smoke outlet 2.
[0033] This has resulted in the following effects and novel technologies:
[0034] This utility model, based on the original electronic cigarette atomization control device, further enhances the ability to control the amount of smoke and prevent e-liquid leakage by adding an auxiliary structure 3. The auxiliary structure 3 includes a hanging wire 31, a plug 32, a baffle plate 33, and a magnetic block 34. The plug 32 is fixed by inserting it into the insertion hole 4. The hanging wire 31 connects the plug 32 and the magnetic block 34. The baffle plate 33 is set on the outside of the magnetic block 34. A circular through hole is opened in the middle of the surface of the baffle plate 33. The hanging wire 31 at the top of the plug 32, together with the magnetic block 34, installs the baffle plate 33 inside the upper part of the smoke outlet 2, using magnetic force for fixation. The baffle plate 33 can... To prevent most of the e-liquid from leaking out from the inside of the outlet 2, thus avoiding e-liquid contamination of the device or affecting the user experience, the volume of e-liquid discharged from the outlet 2 can be controlled by adjusting the diameter of the through hole in the middle of the inner side of the baffle plate 33, thereby controlling the amount of vapor. This design effectively solves the problem of e-liquid leakage during the use of electronic cigarettes and achieves precise control of the amount of vapor, improving the user experience and device performance. The innovation lies in the use of a magnetically fixed baffle plate 33, which has a simple structure, is easy to install, has good stability, and achieves precise control of the amount of vapor by adjusting the diameter of the through hole in the baffle plate 33.
[0035] Working Principle: When using this electronic cigarette atomization control device, the e-liquid inside the atomizer mouthpiece body 1 is first heated to produce smoke. The smoke is then drawn out from the smoke guide chamber 5 inside the atomizer mouthpiece body 1, and enters the inner liner 6. The smoke hole block 7 at the upper end of the inner liner 6 reduces the amount of smoke drawn out. The smoke is then guided from the port of the inner liner 6 to the smoke outlet 2, and the smoke outlet 2 then draws the smoke out. When the user's saliva drips down the inside of the smoke outlet 2 or the inside of the smoke guide chamber 5, the saliva inside the inner liner 6... The inverted frame 8 can collect the user's saliva, and the partition 9 can prevent saliva from flowing out from the bottom of the inner tube 6. At the same time, when the user is not using the atomizer mouthpiece body 1, the plug 32 is inserted into the socket 4. The hanging wire 31 at the top of the plug 32, together with the magnetic block 34, attracts the baffle plate 33. At this time, the baffle plate 33 is installed at the upper end inside the smoke outlet 2. At this time, the baffle plate 33 will prevent a large amount of e-liquid from leaking out of the atomizer mouthpiece body 1. This is the working principle of the electronic atomization control device.
[0036] The embodiments of this utility model are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the utility model to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical applications of this utility model, and to enable those skilled in the art to understand this utility model and design various embodiments with various modifications suitable for a particular purpose.
Claims
1. An electronic cigarette atomization control device, comprising: The atomizer mouthpiece body (1) and the smoke hole block (7) are characterized in that the atomizer mouthpiece body (1) has a smoke guiding chamber (5) inside, the smoke guiding chamber (5) has an inner liner (6) inside, the inner liner (6) has a cavity inside, the bottom of the inner liner (6) has a rectangular opening, the inner liner (6) has an inner wall (10) inside, the inner wall (10) has partitions (9) fixedly arranged at equal intervals on the inner side, the gap surface of the partitions (9) has an inverted frame (8) fixedly arranged, the inner side of the inverted frame (8) has an inner cavity, and the top of the inverted frame (8) has a rectangular opening. The upper end of the smoke guiding chamber (5) is provided with a smoke outlet (2), the outer side of the top of the atomizer mouthpiece body (1) is provided with a socket (4), and the top of the socket (4) is provided with an auxiliary structure (3).
2. The electronic cigarette atomization control device according to claim 1, characterized in that, The partition (9) is C-shaped, and the upper, middle and lower partitions (9) on the inner wall (10) are of different sizes.
3. The electronic cigarette atomization control device according to claim 1, characterized in that, The cross-section of the inverted frame (8) is an inclined surface.
4. The electronic cigarette atomization control device according to claim 1, characterized in that, The diameter of the smoke hole block (7) is smaller than the width of the smoke outlet (2).
5. The electronic cigarette atomization control device according to claim 1, characterized in that, The auxiliary structure (3) includes a hanging wire (31), a plug (32), a baffle plate (33) and a magnetic block (34). The top of the insertion hole (4) is provided with a plug (32) that is locked in place. The top of the plug (32) is provided with a hanging wire (31). One end of the hanging wire (31) is provided with a magnetic block (34). The outer side of the magnetic block (34) is provided with a baffle plate (33). A circular through hole is opened in the middle of the surface of the baffle plate (33).
6. The electronic cigarette atomization control device according to claim 5, characterized in that, The magnetic block (34) and the resist plate (33) are magnetically connected.
7. The electronic cigarette atomization control device according to claim 5, characterized in that, The hanging wire (31) and the magnetic block (34) are fixedly connected.