An automatic sheet inserting machine for inserting an electrode sheet into an atomizing base is provided. The automatic sheet inserting machine includes a feeding mechanism, a conveying mechanism arranged at one side of the feeding mechanism, and a sheet inserting mechanism, a bending mechanism, and a shaping mechanism that are arranged at one side of the conveying mechanism. The atomizing base is transported to the conveying mechanism by the feeding mechanism, and the conveying mechanism transports the atomizing base to the sheet inserting mechanism, so that the sheet inserting mechanism accurately inserts the electrode sheet into the atomizing base. The electrode sheet on the atomizing base is bent by the bending mechanism to form a contact surface, and the contact surface is closely attached to the atomizing base by the shaping mechanism. The waste material on the electrode sheet is removed by a waste removal mechanism.

Devices, cartridges, and method are described herein for emulating smoking wherein a device generates an aerosol for inhalation by a subject by heating a viscous material that can have a tactile response in the mouth or respiratory tract, while reducing Hoffman analytes and mutagenic compounds delivered to the user as compared to a common tobacco cigarette.

A personal vaporizer has an atomizer module having a heating element and an atomizer cup for receiving vaporizing medium. A flow module is releasably attached to the atomizer module. The flow module intakes ambient air and directs the air into a vaporizing chamber at and adjacent the atomizer cup, where the air mixes with atomized medium to form a vapor. The vapor exits the vaporizing chamber via one or more exit passages defined through the flow module. Vapor is directed from the exit passages into a mouthpiece and further into the user's mouth.

The present disclosure provides a device and method for cessation of vaping. The device utilizes a method which allows a user to set a specific number of inhalations of a habit forming substance over a set time period. The method can gradually reduce the number of inhalations the user takes, assisting the user in reducing intake of the habit forming substance.

A portable device body includes a puff opening from an inner passage. A vapor source deliver into an airflow through the inner passage a vaporized content according to a program. The program includes a first phase and a second phase. Delivery according to the first phase sets and changes, according to a first phase dosage change trajectory, a nicotine dosage from a starting nicotine dosage to an ending nicotine dosage. Delivery according to the second phase sets and changes a nicotine-to-placebo ratio according to a second phase dosage change trajectory, from a starting nicotine-to-placebo ratio to an effective zero nicotine-to-placebo ratio. The first phase dosage change trajectory is configured as statistically likely to result in user shift of nicotine intake, from smoking to electronic nicotine delivery. The second phase change trajectory is configured as statistically likely to result in user elimination of nicotine intake

A portable device body includes a puff opening from an inner passage. A vapor source deliver into an airflow through the inner passage a vaporized content according to a program. The program includes a first phase and a second phase. Delivery according to the first phase sets and changes, according to a first phase dosage change trajectory, a nicotine dosage from a starting nicotine dosage to an ending nicotine dosage. Delivery according to the second phase sets and changes a nicotine-to-placebo ratio according to a second phase dosage change trajectory, from a starting nicotine-to-placebo ratio to an effective zero nicotine-to-placebo ratio. The first phase dosage change trajectory is configured as statistically likely to result in user shift of nicotine intake, from smoking to electronic nicotine delivery. The second phase change trajectory is configured as statistically likely to result in user elimination of nicotine intake

Vaporizer and/or electronic cigarette chargers useful for the recharging of rechargeable vaporizer or electronic cigarette power supplies such as batteries, compatible vaporizers and/or electronic cigarettes, their components, charging contacts, methods of their use and kits containing such chargers are disclosed.

A device and method for converting a consumable into an aerosol with high heat without burning the consumable by packaging the consumable containing an internal susceptor inside a housing. A first end of the housing can be capped with an end cap and a second end of the housing can have a mouthpiece. The housing containing the consumable and the susceptor can be placed inside a case with an inductive heating element configured to heat the susceptor. Heating the susceptor results in the consumable being released as an aerosol for inhalation.

In one embodiment, the electronic vaping device includes a cartridge and a battery section. The cartridge and the battery section are connectable so as to define an air inlet between a portion of the cartridge and a portion of the battery section.

There is provided a device for generating an inhalable aerosol or gas, the device including an aerosol generating material having an integrated electrical resistance heating element, so that the aerosol generating material may be heated in direct contact with the electrical resistance heating element, wherein the aerosol generating material is provided as a unitary structure or coating which may be heated to generate multiple deliveries of an inhalable aerosol or gas. There is also provided a method for fabricating the device. There is also provided the use of the device and the use of the aerosol generating material, to generate an inhalable aerosol or gas.