A three-piece bowl assembly is disclosed, including a base to fittingly engage with a water pipe and an adapter fittingly engaged to the base and a reservoir. The reservoir receives a smokable material therein. A plurality of apertures are positioned on the reservoir and the adapter. The apertures directs the flow of smoke into the water pipe and to filter particulates.

A three-piece bowl assembly is disclosed, including a base to fittingly engage with a water pipe and an adapter fittingly engaged to the base and a reservoir. The reservoir receives a smokable material therein. A plurality of apertures are positioned on the reservoir and the adapter. The apertures directs the flow of smoke into the water pipe and to filter particulates.

According to the present disclosure, there is provided a susceptor (1) for at least partially embedding within an object (2) during manufacture of a consumable for use with a non-combustible aerosol provision device. The object comprises aerosol-generating material (3). At least a portion of the susceptor has a non-linear cross-sectional shape (4) perpendicular to a length of the susceptor. here is also provided a method of manufacturing a susceptor, a consumable for use with a non-combustible aerosol provision device, a method of manufacturing a consumable, and a non-combustible aerosol provision system.

According to the present disclosure, there is provided a susceptor (1) for at least partially embedding within an object (2) during manufacture of a consumable for use with a non-combustible aerosol provision device. The object comprises aerosol-generating material (3). At least a portion of the susceptor has a non-linear cross-sectional shape (4) perpendicular to a length of the susceptor. here is also provided a method of manufacturing a susceptor, a consumable for use with a non-combustible aerosol provision device, a method of manufacturing a consumable, and a non-combustible aerosol provision system.

The invention relates to a cartridge (10) for an aerosol-generating device. The cartridge comprises a downstream end comprising a fluid outlet (22) and an upstream end comprising an air inlet (16). The cartridge further comprises a liquid storage portion (12) arranged between the downstream end and the upstream end. The liquid storage portion comprises a liquid sensorial media (14). The cartridge further comprises a diffuser (20). The diffuser is arranged downstream of the air inlet. The invention further relates to a kit comprising at least two cartridges and to an aerosol-generating device.

The present application provides an aerosol generating device which comprises: a cavity, being configured to receive a smokable material; a heater, being configured to extend along the axial direction of the cavity and at least partially surround the cavity, and being configured to heat the smokable material received in the cavity, a temperature sensor, being kept in the cavity, and being configured to be inserted into the smokable material when the smokable material is received in the cavity to sense the temperature of the smokable material. By adopting the aforesaid aerosol generating device in which the temperature sensor is arranged in the cavity and is capable of being inserted into the smokable material to directly detect the temperature of the smokable material, it is convenient to control the temperature in the heating process and the temperature monitoring in the smoking process is more accurate.

The present application provides an aerosol generating device which comprises: a cavity, being configured to receive a smokable material; a heater, being configured to extend along the axial direction of the cavity and at least partially surround the cavity, and being configured to heat the smokable material received in the cavity, a temperature sensor, being kept in the cavity, and being configured to be inserted into the smokable material when the smokable material is received in the cavity to sense the temperature of the smokable material. By adopting the aforesaid aerosol generating device in which the temperature sensor is arranged in the cavity and is capable of being inserted into the smokable material to directly detect the temperature of the smokable material, it is convenient to control the temperature in the heating process and the temperature monitoring in the smoking process is more accurate.

An inhalation device with which it is possible to improve usability and promote users' satisfaction and safety with the inhalation device includes a device body housing to and from which a panel can be attached and detached, and includes a heating unit which heats an inhalation component source for generating an inhalation component; a power supply unit which feeds electric power to the heating unit; a sensor unit which detects attachment of the panel to the housing and which measures data associated with the panel; a storage unit which stores a plurality of operational profiles; and a control unit which identifies an operational profile associated with the data measured by the sensor unit and causes said inhalation device to operate according to the operational profile.

The invention relates to an aerosol-generating device (10) comprising a top portion (20), a main portion (70), and a cartridge (50). The top portion comprises a proximal end comprising a cavity (22) for receiving an aerosol-generating article (12). The top portion further comprises a distal end comprising a top cartridge connector (24) and a top airflow channel extending from the top cartridge connector to the cavity. The main portion comprises a proximal end comprising a main cartridge connector (72). The main portion furthers comprises a main air inlet and a main airflow channel extending from the main air inlet to the main cartridge connector. The top cartridge connector is removably attachable to a proximal end of the cartridge and the main cartridge connector is removably attachable to a distal end of the cartridge enabling a first mode of operation. The top cartridge connector is directly removably attachable to the main cartridge connector enabling a second mode of operation.

A composite-type temperature raising and control integrated heating element and a temperature control method are provided. The heating element includes a heating body, which is integrated by welding two different conductive materials at a welding point. The heating element is not provided with a temperature measuring element other than the heating body. The heating body of the temperature raising and control integrated heating element is formed by welding two conductive materials. When a high voltage is applied, the two conductive materials serve as the heating body to generate heat. When the supply of the voltage is stopped, the two conductive materials serve as a thermocouple temperature measuring sensor to measure the temperature of the heating element. Compared to existing heating elements, the temperature measuring sensor is omitted, the fabrication process of the heating element is simplified, and the performance of the heating element is improved.