An aerosol-generating device is disclosed. The aerosol-generating device includes a first container accommodating an aerosol-generating substance, a heater heating the aerosol-generating substance, a second container configured to be rotatable and including chambers, a rotation detection sensor sensing rotation of the second container, and a controller. The controller determines any one of the chambers to be an application chamber through which an aerosol passes based on a signal received from the rotation detection sensor, and determines usage of a chamber determined to be the application chamber. The heater is heated to a first temperature or higher when the usage is equal to or greater than a first reference and less than a second reference, and is heated to a second temperature or higher when the usage is equal to or greater than the second reference and less than a third reference. The second temperature is higher than the first temperature.

The present disclosure provides an atomizing device including an atomizing component, a controlling component, and a battery component. The atomizing component includes an atomizing piece, an accommodating piece, a piston, and an induction coil. The accommodating piece is disposed on the atomizing piece. Wherein, the accommodating piece is in fluid communication with the atomizing piece, and the accommodating piece is configured to store a filler. The piston is disposed in the accommodating piece and has a magnet inside. The induction coil surrounds the accommodating piece, and the induction coil is configured to drive the piston to move toward the atomizing piece. The controlling component is disposed on one side of the atomizing component is electrically connected to the atomizing component. The battery component is disposed on one side of the controlling component away from the atomizing component and is electrically connected to the controlling component.

The present disclosure provides an atomizing device including an atomizing component, a controlling component, and a battery component. The atomizing component includes an atomizing piece, an accommodating piece, a piston, and an induction coil. The accommodating piece is disposed on the atomizing piece. Wherein, the accommodating piece is in fluid communication with the atomizing piece, and the accommodating piece is configured to store a filler. The piston is disposed in the accommodating piece and has a magnet inside. The induction coil surrounds the accommodating piece, and the induction coil is configured to drive the piston to move toward the atomizing piece. The controlling component is disposed on one side of the atomizing component is electrically connected to the atomizing component. The battery component is disposed on one side of the controlling component away from the atomizing component and is electrically connected to the controlling component.

An aerosol generating device includes: a liquid storage configured to store an aerosol generating material; a first residual amount detection sensor and a second residual amount detection sensor respectively arranged on a first inner surface and a second inner surface that face each other among inner surfaces of the liquid storage; a third residual amount detection sensor and a fourth residual amount detection sensor respectively arranged on a third inner surface and a fourth inner surface of the liquid storage that face each other and are different from the first inner surface and the second inner surface of the liquid storage; and a controller configured to measure a remaining amount of the aerosol generating material based on a first detected value output by the first residual amount detection sensor and a second detected value output by the second residual amount detection sensor.

An aerosol generating device includes: a liquid storage configured to store an aerosol generating material; a first residual amount detection sensor and a second residual amount detection sensor respectively arranged on a first inner surface and a second inner surface that face each other among inner surfaces of the liquid storage; a third residual amount detection sensor and a fourth residual amount detection sensor respectively arranged on a third inner surface and a fourth inner surface of the liquid storage that face each other and are different from the first inner surface and the second inner surface of the liquid storage; and a controller configured to measure a remaining amount of the aerosol generating material based on a first detected value output by the first residual amount detection sensor and a second detected value output by the second residual amount detection sensor.

Cartridges for vaporizer devices are provided. In one exemplary embodiment, the cartridge can include a reservoir configured to contain a plurality of encapsulated particles and an airflow tube extending through the reservoir. Each of the plurality of encapsulated particles includes a core formed of a liquid vaporizable material and a coating material that forms a shell surrounding the core, in which the shells of the plurality of encapsulated particles are configured to be selectively ruptured to release the liquid vaporizable material therefrom. The airflow tube includes a wicking element that is in communication with the reservoir, in which the wicking element is configured to draw, into the airflow tube for vaporization, at least a portion of the liquid vaporizable material that is released by rupturing one or more shells of the plurality of encapsulated particles. Vaporizer devices are also provided.

Cartridges for vaporizer devices are provided. In one exemplary embodiment, the cartridge can include a reservoir configured to contain a plurality of encapsulated particles and an airflow tube extending through the reservoir. Each of the plurality of encapsulated particles includes a core formed of a liquid vaporizable material and a coating material that forms a shell surrounding the core, in which the shells of the plurality of encapsulated particles are configured to be selectively ruptured to release the liquid vaporizable material therefrom. The airflow tube includes a wicking element that is in communication with the reservoir, in which the wicking element is configured to draw, into the airflow tube for vaporization, at least a portion of the liquid vaporizable material that is released by rupturing one or more shells of the plurality of encapsulated particles. Vaporizer devices are also provided.

An aerosol-generating article for an aerosol-generating system is provided, the article including: a storage portion having an outlet; an aerosol-forming substrate contained within the storage portion; and a vaporisable barrier to seal the outlet, in which the barrier includes one or more polymers, has a polymer content of greater than or equal to 1 percent by weight, is configured to be vaporised during a first heating cycle of the article during first use of the article in the system, further includes one or more metal salts, and the salts are selected from the group consisting of metal alginates, metal benzoates, metal cinnamates, metal cycloheptanecarboxylates, metal levulinates, metal propanoates, metal stearates, and metal undecanoates. An aerosol-generating system, and a method of manufacturing an aerosol-generating article, are also provided.

An aerosol-generating article for an aerosol-generating system is provided, the article including: a storage portion having an outlet; an aerosol-forming substrate contained within the storage portion; and a vaporisable barrier to seal the outlet, in which the barrier includes one or more polymers, has a polymer content of greater than or equal to 1 percent by weight, is configured to be vaporised during a first heating cycle of the article during first use of the article in the system, further includes one or more metal salts, and the salts are selected from the group consisting of metal alginates, metal benzoates, metal cinnamates, metal cycloheptanecarboxylates, metal levulinates, metal propanoates, metal stearates, and metal undecanoates. An aerosol-generating system, and a method of manufacturing an aerosol-generating article, are also provided.

An aerosol provision system including a consumable having a plurality of regions of aerosol generating material, and a heater comprising a plurality of heating elements, each heating element corresponding to a region of the plurality of regions of aerosol generating material, wherein in use the heater is arranged to controllably heat at least two of the plurality of regions of aerosol generating material to produce a personalised aerosol for inhalation.