A vaporizer cartridge of an inhaler has a liquid storage tank and a hollow body with a continuous air flow channel. The storage tank has an access opening to the air flow channel. A vaporizer unit extends over the entire access opening and is arranged in the region of the access opening. The vaporizer unit has a wick member towards the storage tank and a heating member towards the air flow channel. The vaporizer unit is liquid-permeable such that liquid is conveyed at least initially from the tank through the vaporizer unit to the channel in a capillary manner. The interior of the tank is structurally divided into fluidically coupled main and auxiliary volume. Only the auxiliary volume is in direct contact with the vaporizer unit, such that the liquid from the main volume contacts the wick member solely via the auxiliary volume. An inhaler may include the vaporizer cartridge.

A storage device for an electronic vaporization device is provided. The storage device includes a housing and a base. The housing is provided with a mouthpiece and an air-outlet pipe in communication with the mouthpiece. The air-outlet pipe forms an air-outlet channel in a surrounding manner. A liquid blocking member is disposed in the air-outlet pipe. The liquid blocking member includes a ventilation portion and an outer periphery surrounding the periphery of the ventilation portion. The ventilation portion has at least one ventilation hole, and two ends of the ventilation hole are respectively in communication with the air-outlet channel. The outer periphery is in sealing contact with an inner wall of the air-outlet pipe in a circumferential direction, and is provided with a groove on a side facing away from the mouthpiece.

A storage device for an electronic vaporization device is provided. The storage device includes a housing and a base. The housing is provided with a mouthpiece and an air-outlet pipe in communication with the mouthpiece. The air-outlet pipe forms an air-outlet channel in a surrounding manner. A liquid blocking member is disposed in the air-outlet pipe. The liquid blocking member includes a ventilation portion and an outer periphery surrounding the periphery of the ventilation portion. The ventilation portion has at least one ventilation hole, and two ends of the ventilation hole are respectively in communication with the air-outlet channel. The outer periphery is in sealing contact with an inner wall of the air-outlet pipe in a circumferential direction, and is provided with a groove on a side facing away from the mouthpiece.

A hybrid aerosol-generating device contains a HNB article and an ECIG article. The hybrid aerosol-generating device allows for simultaneous inhalation from both a HNB article and an ECIG article. The hybrid device includes a HNB article configured to heat non-liquid materials without combustion of the non-liquid materials and also includes an ECIG article configured to heat liquid materials without combustion of the liquid materials. The hybrid aerosol-generating device may further include a mouthpiece connected to both the HNB article and the ECIG article to allow for the simultaneous delivery of aerosols and/or vapors created by the heated non-liquid materials and the heated liquid materials.

A hybrid aerosol-generating device contains a HNB article and an ECIG article. The hybrid aerosol-generating device allows for simultaneous inhalation from both a HNB article and an ECIG article. The hybrid device includes a HNB article configured to heat non-liquid materials without combustion of the non-liquid materials and also includes an ECIG article configured to heat liquid materials without combustion of the liquid materials. The hybrid aerosol-generating device may further include a mouthpiece connected to both the HNB article and the ECIG article to allow for the simultaneous delivery of aerosols and/or vapors created by the heated non-liquid materials and the heated liquid materials.

An aerosol generation device comprises a chamber, a housing and a cover. The chamber is adapted to receive a consumable. The housing contains the chamber and comprises an opening through which the consumable can be removed from the chamber. The cover is configured to move between an open position where the opening of the housing is exposed and a closed position where the opening of the housing is closed. The aerosol generation device is adapted to generate an inhalable vapor from the consumable. The cover comprises one or more dislodging elements adapted to dislodge the consumable such that, when the cover moves from the closed position to the open position: an attachment is weakened between the chamber and the consumable, and the consumable is partially ejected from the chamber without becoming attached to the cover.

An aerosol generation device comprises a chamber, a housing and a cover. The chamber is adapted to receive a consumable. The housing contains the chamber and comprises an opening through which the consumable can be removed from the chamber. The cover is configured to move between an open position where the opening of the housing is exposed and a closed position where the opening of the housing is closed. The aerosol generation device is adapted to generate an inhalable vapor from the consumable. The cover comprises one or more dislodging elements adapted to dislodge the consumable such that, when the cover moves from the closed position to the open position: an attachment is weakened between the chamber and the consumable, and the consumable is partially ejected from the chamber without becoming attached to the cover.

The present disclosure relates to aerosol delivery devices. In various implementations, the aerosol delivery devices comprise a control device that includes a battery, a control component, and an outer housing that defines receiving chamber, and a cartridge that includes a mouthpiece portion, a tank that contains a liquid composition, and a heater configured to heat the liquid composition. The cartridge and the control device each include at least one connector configured to provide a magnetic and an electrical connection between the cartridge and the control device such that the cartridge can be removably and operatively received into the cartridge receiving chamber of the control body, wherein the at least one connector of the cartridge is located on the mouthpiece portion.

The present disclosure relates to aerosol delivery devices. In various implementations, the aerosol delivery devices comprise a control device that includes a battery, a control component, and an outer housing that defines receiving chamber, and a cartridge that includes a mouthpiece portion, a tank that contains a liquid composition, and a heater configured to heat the liquid composition. The cartridge and the control device each include at least one connector configured to provide a magnetic and an electrical connection between the cartridge and the control device such that the cartridge can be removably and operatively received into the cartridge receiving chamber of the control body, wherein the at least one connector of the cartridge is located on the mouthpiece portion.

A vaporizer cartridge and tank guard including an elongated member. The long member is a cylindrical member. The long member has a vertical hole located through a middle section. The interior of the hole is surrounded by a flexible material. This material allows a glass cartridge or tank to be removably secured within the hole. A second material is placed around the flexible material. The second material is a hard, protective material that prevents the cylinder from being crushed. The long member has an ergonomic exterior. This exterior is created by tapering the long member inward at the center.