The technical principle of anti-oil leakage design for electronic cigarettes is mainly based on precise structural design, material selection and the application of innovative technologies, aiming to effectively reduce or avoid oil leakage during the use of electronic cigarettes. The following is a detailed analysis of the technical principles and advantages of anti-oil leakage designed e-cigarettes:
Oil and gas separation design
By designing independent oil channels and air channels, the two can remain in an independent state during the operation of the e-cigarette and do not interfere with each other. This design can prevent e-liquid from directly entering the airway during the inhalation process, thereby reducing oil leakage.
Fully sealed technology
The top, middle, bottom and other parts of the e-cigarette cartridge are strictly sealed with high molecular materials to achieve 360-degree oil locking. This technology can effectively prevent e-liquid from seeping out through the gaps of e-cartridgers and reduce the risk of oil leakage.
Intelligent oil leakage prevention technology
By using precise structural designs, such as maze-structured e-liquid cartridgers, the complexity of e-liquid flow is increased, and the flow speed of e-liquid is slowed down, thereby reducing the possibility of oil leakage. Meanwhile, some e-cigarettes are also equipped with smart chips that can monitor the usage of e-liquid in real time and automatically adjust working parameters to further reduce the risk of oil leakage.
Negative pressure principle to prevent oil leakage:
The negative pressure generated by the inhalation action of the e-cigarette squeezes the oil storage cotton in the oil tank pipe, causing the e-liquid to converge into the oil cavity inside the oil storage cotton. At the same time, a vent hole is opened inside the silicone of the cigarette nozzle to facilitate the release of the negative pressure generated in the inner cavity of the oil tank, keeping the pressure inside the inner cavity of the oil tank consistent with the outside, thereby preventing oil leakage.
COP oil core separation technology
Isolate the e-liquid from the atomizer to keep the e-liquid fresh. Meanwhile, this technology can also separate e-liquid from air, eliminating the influence of air pressure issues on oil leakage and effectively preventing oil leakage during the transportation of e-cigarettes.
Enhance user experience
The anti-oil leakage design of e-cigarettes can effectively reduce oil leakage, prevent e-liquid from staining clothes or bags, and enhance the user's smoking experience.
Ensure health and safety
Oil leakage not only affects the usage effect of e-cigarettes, but also may pose a potential threat to users' health. The anti-oil leakage design of e-cigarettes reduces the risk of e-liquid coming into contact with the skin and being inhaled into the lungs by minimizing oil leakage, thus ensuring the health and safety of users.
Extend the product's lifespan
Oil leakage can cause a large amount of e-liquid to accumulate inside the e-cigarette device, which may damage the device components and shorten the product's lifespan. The anti-oil leakage design of electronic cigarettes extends the product's service life by reducing oil leakage.
Enhance product competitiveness
Against the backdrop of increasingly fierce competition in the e-cigarette market, oil-proof design has become one of the important indicators for measuring the quality of e-cigarette products. Electronic cigarette products with anti-oil leakage design are more likely to win the favor of consumers and enhance the market competitiveness of the products.
In summary, the anti-oil leakage design of electronic cigarettes, through precise structural design, material selection, and the application of innovative technologies, effectively reduces the occurrence of oil leakage, enhances user experience, ensures health and safety, extends product lifespan, and improves the market competitiveness of the product.