An exemplary atomizer includes an atomizing sleeve, an air pipe received in the atomizing sleeve, a mouthpiece assembly arranged at one end of the atomizing sleeve, and an atomizing assembly received in the atomizing sleeve. The atomizing sleeve and the air pipe cooperatively define a sealed liquid reserving chamber for reserving tobacco liquid. The atomizing assembly includes a liquid obstruction cover and a glass fiber core. The liquid obstruction cover includes a sidewall. The sidewall and the atomizing sleeve cooperatively defining a gap. The glass fiber core is fixed by the sidewall, and two opposite ends of the glass fiber core are both positioned in the gap. The glass fiber core is configured for absorbing the tobacco liquid in the liquid reserving chamber through the gap.

An aerosol delivery device comprises: a flow passage configured to provide fluid communication between a vaporizer and a mouthpiece aperture, so that the mouthpiece aperture receives a flow comprising an aerosol vapor formed from liquid vaporized by the vaporizer in use; and a turbulence inducing element, the turbulence inducing element located in the flow passage and configured to turn the flow towards a circumferential direction of the aerosol delivery device.

An aerosol delivery device comprises: a flow passage configured to provide fluid communication between a vaporizer and a mouthpiece aperture, so that the mouthpiece aperture receives a flow comprising an aerosol vapor formed from liquid vaporized by the vaporizer in use; and a turbulence inducing element, the turbulence inducing element located in the flow passage and configured to turn the flow towards a circumferential direction of the aerosol delivery device.

The method including first establishing a first airflow in a first passage of an e-vaping cartridge, the first passage including a first portion, a second portion and a third portion, a first air inlet in communication with the first portion, a heater in communication with the second portion, the second portion being between the first portion and the third portion, and second establishing a second airflow in a second passage of the e-vaping cartridge, the second passage being in communication with the third portion.

The method including first establishing a first airflow in a first passage of an e-vaping cartridge, the first passage including a first portion, a second portion and a third portion, a first air inlet in communication with the first portion, a heater in communication with the second portion, the second portion being between the first portion and the third portion, and second establishing a second airflow in a second passage of the e-vaping cartridge, the second passage being in communication with the third portion.

The utility model provided an atomizer. The atomizer includes an atomizing head defining an atomizing chamber; and a base seat assembly positioned on an end of the atomizing head. The base seat includes a base seat defining a liquid storage groove in communication with the atomizing chamber. The liquid storage groove is provided with a convex body defining at least one ventilation hole, when the tobacco liquid explodes, the tobacco liquid splashes to the convex body and capable of flowing into the liquid storage groove along the convex body. In the atomizer of the utility model, the tobacco liquid is prevented from leaking through the ventilation hole. It has a simple structure and a notable effect, and lightens the clear-up workload of the user, thereby improving user's experience. The utility model further provides an electronic cigarette having aforementioned atomizer.

The utility model provided an atomizer. The atomizer includes an atomizing head defining an atomizing chamber; and a base seat assembly positioned on an end of the atomizing head. The base seat includes a base seat defining a liquid storage groove in communication with the atomizing chamber. The liquid storage groove is provided with a convex body defining at least one ventilation hole, when the tobacco liquid explodes, the tobacco liquid splashes to the convex body and capable of flowing into the liquid storage groove along the convex body. In the atomizer of the utility model, the tobacco liquid is prevented from leaking through the ventilation hole. It has a simple structure and a notable effect, and lightens the clear-up workload of the user, thereby improving user's experience. The utility model further provides an electronic cigarette having aforementioned atomizer.

An adjustable airflow cartridge for vaporizing liquids is provided herein featuring a top section including a mouthpiece, a middle section including a tank, a bottom section including a heating element and at least one adjustable intake air aperture, a tube extending from the bottom section through the tank to the mouthpiece, and a rotatable portion on the bottom section that when rotated is configured to increase or decrease a size of at least one adjustable intake air aperture. Air may flow through the adjustable airflow cartridge from the bottom section to the top section by flowing through at least one adjustable intake air aperture, through the heating element, and through the tube to the mouthpiece. In addition, the amount of air that may flow through the at least one adjustable intake air aperture may be adjusted based upon a rotation of the rotatable portion by a user.

An adjustable airflow cartridge for vaporizing liquids is provided herein featuring a top section including a mouthpiece, a middle section including a tank, a bottom section including a heating element and at least one adjustable intake air aperture, a tube extending from the bottom section through the tank to the mouthpiece, and a rotatable portion on the bottom section that when rotated is configured to increase or decrease a size of at least one adjustable intake air aperture. Air may flow through the adjustable airflow cartridge from the bottom section to the top section by flowing through at least one adjustable intake air aperture, through the heating element, and through the tube to the mouthpiece. In addition, the amount of air that may flow through the at least one adjustable intake air aperture may be adjusted based upon a rotation of the rotatable portion by a user.

An aerosol delivery device is disclosed. The aerosol delivery device includes an atomizer and a body. The body has an outlet and houses the atomizer. The aerosol delivery device also includes a structure configured to inhibit liquid droplets of an aerosol precursor from exiting the outlet. Embodiments of the structure include micro-patterned surfaces, absorbers, and macro structures to create droplet capturing chambers.