A rechargeable pack is provided for containing and recharging an e-cigarette. The pack includes a pack battery; a first connector which is electrically connectable to an external power source; a first recharging mechanism for re-charging the pack battery using the external power source when the first connector is electrically connected to the external power source; a second connector which is electrically connectable to the e-cigarette when the e-cigarette is received within the pack; and a second recharging mechanism for re-charging the e-cigarette using the pack battery when the e-cigarette is electrically connected to the second connector. The second recharging mechanism can be configured to provide protection against the pack battery providing excessive current through the second connector.

A rechargeable pack is provided for containing and recharging an e-cigarette. The pack includes a pack battery; a first connector which is electrically connectable to an external power source; a first recharging mechanism for re-charging the pack battery using the external power source when the first connector is electrically connected to the external power source; a second connector which is electrically connectable to the e-cigarette when the e-cigarette is received within the pack; and a second recharging mechanism for re-charging the e-cigarette using the pack battery when the e-cigarette is electrically connected to the second connector. The second recharging mechanism can be configured to provide protection against the pack battery providing excessive current through the second connector.

An aerosol delivery device is provided. The aerosol delivery device comprises a control component and a digital compass. The digital compass includes a multi-axis magnetometer configured to measure a magnetic field in an environment of the aerosol delivery device, and generate a corresponding signal that indicates a direction and strength of the magnetic field. The control component or the digital compass are configured to control operation of at least one functional element of the aerosol delivery device based on the direction and strength of the magnetic field indicated by the corresponding signal, or a direction of the aerosol delivery device relative thereto. Control of the at least one functional element includes output of the direction and strength of the magnetic field or the direction of the aerosol delivery device for presentation by a display.

A vaporization apparatus configured to support a vaporization rig and a heating element, comprises a body including a back end, a front end, and a top surface. The front end includes a hole that extends towards the back end, the hole being configured to support the heating element. The top surface defines a receptacle sized to support the vaporization rig, the hole and the receptacle being positioned to align a heatable portion of the vaporization rig with a heat generating portion of the heating element.

The present disclosure relates to compositions that are useful in the delivery of various materials. In particular, the compositions comprise a suspension wherein an internal phase material is surrounded by an external phase material. The internal phase specifically can be a hydrophilic material, and the external phase specifically can be a hydrophobic material. The materials are combined so that the internal phase is substantially encapsulated by the external phase such that release can be controlled in relation to osmotic pressure differentials. The suspension can be combined with a carrier, and various systems and products can be formed with the suspension and optional carrier, such as oral strips, spray delivery systems, smokeless tobacco products, aerosol delivery devices, cigarettes, and packaging.

The present disclosure relates to compositions that are useful in the delivery of various materials. In particular, the compositions comprise a suspension wherein an internal phase material is surrounded by an external phase material. The internal phase specifically can be a hydrophilic material, and the external phase specifically can be a hydrophobic material. The materials are combined so that the internal phase is substantially encapsulated by the external phase such that release can be controlled in relation to osmotic pressure differentials. The suspension can be combined with a carrier, and various systems and products can be formed with the suspension and optional carrier, such as oral strips, spray delivery systems, smokeless tobacco products, aerosol delivery devices, cigarettes, and packaging.

An atomizing nozzle of an electronic atomizing inhaler, includes a casing body, provided with a cap at the opening of the front end, with a gas-outlet aperture on the cap, and provided with a rear closure at the opening of the rear end, with a gas-inlet aperture on the rear closure; a liquid-container and a heater provided in the cavity formed by the casing body, the cap and the rear closure, an airflow-passage being provided between the casing body and the liquid-container; a liquid-guiding device closing the mouth part of the liquid-container, with no liquid-storage medium provided in the liquid-container; and a heater provided on the top of the rear closure, contacting the lower surface of the liquid-guiding device. An electronic atomizing inhaler is also provided.

A vaporization apparatus configured to support a vaporization rig and a heating element, comprises a body including a back end, a front end, and a top surface. The front end includes a hole that extends towards the back end, the hole being configured to support the heating element. The top surface defines a receptacle sized to support the vaporization rig, the hole and the receptacle being positioned to align a heatable portion of the vaporization rig with a heat generating portion of the heating element.

A unit for mixing and dispensing an aerosol precursor composition, and containers to be dispensed therefrom. The unit includes a plurality of bulk material filling stations, the plurality of bulk material filling stations have at least one first filling station with aerosol former and at least one second filling station with a flavor material for creating the aerosol precursor. The unit also includes a bulk consumable pack staging a plurality of containers configured to receive the aerosol precursor, and a robot configured to retrieve a container from the bulk consumable pack and move the container through at least two dimensions to stop at at least two of the plurality of bulk material filling stations.

Devices and systems are provided for vaping. Exemplary devices include a case for an electronic device that comprises a form factor having a length, a width and a thickness that are greater than those of the electronic device. The backside of the case has a first cavity with a first bottom formed within, wherein the cavity is formed to flushly accept and hold the electronic device. The case also includes a rechargeable battery contained in a battery storage cavity within the form factor and an electronically operated vapor producing device moveably connected along the exterior edge and at least partially replacing the exterior edge. The cellular phone and the electronically operated vapor producing device are electrically connectable to the rechargeable battery via one or more electric conductors passing through the form factor.