An aerosol-generating device is provided, including: a storage portion to store an aerosol-forming substrate and having an outer housing and an internal passageway, the storage portion forming a reservoir for the substrate between the outer housing and the internal passageway; a vaporizer being at least partially inside the internal passageway; and a porous interface at least partially lining the internal passageway to convey the substrate from the storage portion towards the vaporizer, the device being electrically operated and the vaporizer including an electric heater to heat the substrate, the heater including first and second cylindrical electrical connection portions, and a cylindrical heating filament between the first and the second portions, the first and the second portions being in the form of hollow tubes, the cylindrical shape of the first and the second portions and the filament defining a cylindrical bore with an air flow route therethrough.

An e-vapor apparatus may include a pod assembly and a dispensing body configured to receive the pod assembly. A vaporizer may be disposed in the pod assembly and/or the dispensing body. The pod assembly may include a pre-vapor formulation compartment, a device compartment, and a vapor channel extending from the device compartment and traversing the pre-vapor formulation compartment. The pod assembly is a smart pod configured to receive, store, and transmit information that can be communicated with the dispensing body and/or another electronic device. The proximal portion of the dispensing body includes a vapor passage and a through-hole. The vapor passage may extend from an end surface of the proximal portion to a side wall of the through-hole. The through-hole is configured to receive the pod assembly such that the vapor channel of the pod assembly is aligned with the vapor passage of the dispensing body.

An e-vapor apparatus may include a pod assembly and a dispensing body configured to receive the pod assembly. A vaporizer may be disposed in the pod assembly and/or the dispensing body. The pod assembly may include a pre-vapor formulation compartment, a device compartment, and a vapor channel extending from the device compartment and traversing the pre-vapor formulation compartment. The pod assembly is a smart pod configured to receive, store, and transmit information that can be communicated with the dispensing body and/or another electronic device. The proximal portion of the dispensing body includes a vapor passage and a through-hole. The vapor passage may extend from an end surface of the proximal portion to a side wall of the through-hole. The through-hole is configured to receive the pod assembly such that the vapor channel of the pod assembly is aligned with the vapor passage of the dispensing body.

Cartridges for vaporizer devices are provided. In one exemplary embodiment, the cartridge can include a reservoir being configured to contain a liquid vaporizable material that includes at least one ionic component, an airflow tube that extends though the reservoir and defines an airflow passageway therethrough, and first and second electrodes. The airflow tube includes a wicking element that is in fluid communication with the reservoir, in which the wicking element is configured to substantially draw at least a portion of the liquid vaporizable material from the reservoir into the airflow passageway. The first and second electrodes are positioned substantially on or adjacent to opposite surfaces of the wicking element, in which the liquid vaporizable material received within the wicking element is substantially vaporized in response to generation of a potential difference between the first and second electrodes. Vaporizer devices are also provided.

This invention transforms the Storz & Bickel Volcano Vaporizer into a Vaporizer that can Vaporize extracts like Rosin, Shatter, oils, Budder, wax, etc. Essentially, this invention is a Volcano Extract Bowl. The measurements for this invention are 13 mm high and 27 mm wide circular Glass Bowl with an elevated circular 9 mm wide hole directly in the middle where hot air (446 F) can pass through. The circular 9 mm wide hole is elevated to a height of and a Flow Diverting Cap removable secured is placed on top of the elevated hole. The Flow Diverting Cap is 16.6 mm wide circular metal flat top cap with a spring loaded circular eight-legged 7.7 mm long Fixing Clip that allows hot air to be easily diverted through the eight 2.8 mm wide slit openings located in between each spring-loaded clip leg. Each clip leg is 2.5 mm wide, arranged around the circumference of the bottom of the circular flat top and are extending down to a length of 7.7 mm. The extract is placed inside the 27 mm wide Glass Bowl inside wall and the outside wall of the 11 mm elevated circular 9 mm wide hole. You place the Volcano Extract Bowl inside the Volcano Chamber Housing and place the Volcano Chamber Housing with the Volcano Extract Bowl inside, on top of the Storz & Beckel Volcano Vaporizer heating core. When the (446 F) degree air pushes out of the Volcano Vaporizer heating core and through the elevated hole, it gets diverted by the Flow Diverting Cap causing maximum turbulence and heat exchange. Due to this process the inside of the Volcano Vaporizer Chamber Housing heats up to (446 F) and simultaneously heats up the Volcano Extract Bowl and the extract in it to the same degree, causing the extract to vaporiie. The vaporized extract vapers get pushed out of the Volcano Vaporizers Chamber Housing Exhaust.

This invention transforms the Storz & Bickel Volcano Vaporizer into a Vaporizer that can Vaporize extracts like Rosin, Shatter, oils, Budder, wax, etc. Essentially, this invention is a Volcano Extract Bowl. The measurements for this invention are 13 mm high and 27 mm wide circular Glass Bowl with an elevated circular 9 mm wide hole directly in the middle where hot air (446 F) can pass through. The circular 9 mm wide hole is elevated to a height of and a Flow Diverting Cap removable secured is placed on top of the elevated hole. The Flow Diverting Cap is 16.6 mm wide circular metal flat top cap with a spring loaded circular eight-legged 7.7 mm long Fixing Clip that allows hot air to be easily diverted through the eight 2.8 mm wide slit openings located in between each spring-loaded clip leg. Each clip leg is 2.5 mm wide, arranged around the circumference of the bottom of the circular flat top and are extending down to a length of 7.7 mm. The extract is placed inside the 27 mm wide Glass Bowl inside wall and the outside wall of the 11 mm elevated circular 9 mm wide hole. You place the Volcano Extract Bowl inside the Volcano Chamber Housing and place the Volcano Chamber Housing with the Volcano Extract Bowl inside, on top of the Storz & Beckel Volcano Vaporizer heating core. When the (446 F) degree air pushes out of the Volcano Vaporizer heating core and through the elevated hole, it gets diverted by the Flow Diverting Cap causing maximum turbulence and heat exchange. Due to this process the inside of the Volcano Vaporizer Chamber Housing heats up to (446 F) and simultaneously heats up the Volcano Extract Bowl and the extract in it to the same degree, causing the extract to vaporiie. The vaporized extract vapers get pushed out of the Volcano Vaporizers Chamber Housing Exhaust.

An aerosol generating system includes a liquid storage portion, a liquid transfer element, a power supply, and a heating element operably coupled to the power supply and configured to heat the aerosol generating substrate. The system also includes a cover over the liquid storage portion.

An aerosol generating system includes a liquid storage portion, a liquid transfer element, a power supply, and a heating element operably coupled to the power supply and configured to heat the aerosol generating substrate. The system also includes a cover over the liquid storage portion.

An ultrasonic liquid electronic cigarette atomizer and an ultrasonic liquid electronic cigarette are disclosed. The ultrasonic liquid electronic cigarette atomizer comprises an atomization core, a suction nozzle and an air outlet tube. A bottom end of the air outlet tube is communicated with an atomization chamber of the atomization core. A top end of the air outlet tube is communicated with the suction nozzle. The top end of the air outlet tube is communicated with a bottom end of the suction nozzle through a liquid blocking chamber, and the diameter of a top end of the liquid blocking chamber is greater than the diameter of the bottom end of the suction nozzle. The atomizer further comprises a connecting seat between the liquid blocking chamber and the suction nozzle.

An ultrasonic liquid electronic cigarette atomizer and an ultrasonic liquid electronic cigarette are disclosed. The ultrasonic liquid electronic cigarette atomizer comprises an atomization core, a suction nozzle and an air outlet tube. A bottom end of the air outlet tube is communicated with an atomization chamber of the atomization core. A top end of the air outlet tube is communicated with the suction nozzle. The top end of the air outlet tube is communicated with a bottom end of the suction nozzle through a liquid blocking chamber, and the diameter of a top end of the liquid blocking chamber is greater than the diameter of the bottom end of the suction nozzle. The atomizer further comprises a connecting seat between the liquid blocking chamber and the suction nozzle.