A method of purifying herbal extract(s) from an herbaceous plant composition includes heating the herbal extracts-containing composition to volatilize at least one of herbal extract(s) into a vapor and condensing the vapor on a substrate or wet extracting the herbal extract(s) by treatment of the herbaceous plant composition or a derivative thereof with a solvent for the herbal extract(s), separating the solution of herbal extract(s), forming a concentrate and casting the concentrate on the substrate to form a coating of the herbal extract(s) on the substrate. A corresponding delivery cartridge and delivery system can include a controllable heating element and the substrate coated with at least one of herbal extract(s). These are configured to allow passage of air over the substrate to volatilize or entrain the herbal extract(s) as a vapor, gas or aerosol for administration to a user.

An inhaler housing (14) for an inhaler (10) for inhaling inhalable substances, the inhaler having: a body (14) and a dose counter (24) with a return spring (28), wherein a distinct guide surface (162) is provided for guiding the end of the return spring into a recess (152), the distinct guide surface being wider than an entrance mouth (160) of the recess, a dose counter chamber (22) being provided which is separated from a tubular interior space (182) of the inhaler by a barrier (180), the barrier including a stepped upper wall area (184) including at least three steps (186, 188, 190, 192) at different levels, the inhaler having a valve stem block (62) having an inner bore and a valve stem block having a seal (224) in the inner bore with a second diameter which is smaller than a first diameter of the inner bore, the inhaler having a canister (150) being adapted to move during operation between 1 and 4 mm, a drive being arranged to apply a firing force of between 15 N and 60 N of force to the canister at a position of the canister relative to a valve stem (54) at which the canister fires.

An electronic cigarette includes a plurality of liquid reservoirs configured to store different liquids, each of the liquid reservoirs being fluidically coupled to a heater, a memory configured to store at least one program defining which heater is activated and a duration of time for the activation, a timer configured to regulate the time during which each heater is activated, a controller configured to selectively control the activation of each heater according to the at least one program on the memory, wherein the electronic cigarette is configured to produce a vapour with variations in its composition over time during the course of a vaping session.

The present invention provides dry powder inhaler (DPI) devices (100) for dispensing dry powder and methods for using the same. The DPI devices feature vortex mechanisms for directing air in a turbulent manner sufficient to entrain an amount of a dry powder dose for delivery into a user's lungs. The DPI devices feature replaceable dry powder cartridges (200). The DPI devices also feature a retractable configuration for storage and for accidental dispensing of dry powder. The DPI devices dispense dry powder in controlled dosages.

The invention relates to an ultrasonic mist inhaler, comprising: a liquid reservoir structure comprising a liquid chamber adapted to receive liquid to be atomized, a sonication chamber in fluid communication with the liquid chamber,
wherein the sonication chamber comprises means of ultrasonic vibrations receiving a predetermined signal for vibrating the means of ultrasonic vibrations in a range comprised between 2.8 MHz and 3.2 MHz as depicted in FIG. 3.

The present invention is directed to a system comprising a mobile inhaler (1) that is configured to be connected to at least one liquid container (17), and to deliver an amount of an inhaling substance (10). The mobile inhaler comprises furthermore at least one or a plurality of connector(s) (80) configured for connection of the mobile inhaler to the at least one liquid container and for intaking of at least a portion of the at least one liquid container's content(s). The system comprises furthermore the at least one liquid container, wherein each liquid container comprises at least one reservoir that comprises at least a portion of the inhaling substance or the inhaling substance. The present invention is furthermore directed to a method for operating the system, comprising delivering the inhaling substance by the system according to a set of conditions. Said set of conditions regulates at least one of a quantity and a general delivery of the inhaling substance.

The method includes first providing a retention medium in a first element; coaxially aligning a plurality of elements, wrapping the coaxially aligned plurality of elements within a wrapper to form a portion of the aerosol-generating article, the plurality of elements including the first element, the aerosol-generating article having a first end and a second end, the second end being upstream from the first end based on an expected direction of airflow through the aerosol-generating article during normal operational use, second providing at least one capsule, the at least one capsule releasably containing a substrate, and inserting the at least one capsule within the first element, the retention medium being configured to retain the substrate after a release of the substrate from the at least one capsule, the retention medium being devoid of the substrate prior to the release of the substrate from the at least one capsule.

A portable inhalation device includes a medication storage component, a flow controller, an atomizer, a medication delivery component, and a pressure sensor. The medication storage component is configured to store medication. The flow controller is configured to cause a force to be applied to the medication stored by the medication storage component to transport the medication to the atomizer. The atomizer is configured to generate droplets from the medication. The medication delivery component includes a delivery channel extending from the atomizer to an outlet opening. The medication delivery component is configured to receive the medication in the delivery channel from the atomizer and dispense the medication via the opening. The pressure sensor is configured to detect a pressure corresponding to a flow rate of air in the delivery channel and output an indication of the detected pressure.

A warning system for use with an inhaler includes an operating mechanism that is configured to be actuated to a reset state, a primed state, and a fired state. The inhaler dispenses a metered dose of a medicament upon actuation of the operating mechanism from the primed state to the fired state. The warning system includes a control circuit that is activated upon actuation of the operating mechanism from the primed state to the fired state. The warning system also includes an alert device communicably coupled to the control circuit and configured to generate a warning. Further, the control circuit is configured to control the alert device to generate the warning until the operating mechanism has been actuated from the fired state to the reset state.

Modular smoking devices that vaporize certain materials, such as tobacco or cannabis are disclosed. The technology provides for intelligent ignition, combustion, or vaporization of given material at the appropriate temperatures that prevent generation of harmful and unwanted byproducts. According to one embodiment, the modular smoking device comprises a self-contained combustion chamber to hold the material, a combustion mechanism integrated with the self-contained combustion chamber, and an energy source, such as a rechargeable battery, to power the combustion mechanism. The combustion mechanism is configured to provide targeted combustion of the material, where the active ingredients generated upon the combustion are consumed by inhaling a smoke or vapor resulting from the combustion or vaporization. The self-contained combustion chamber includes a lighterless combustion mechanism such as a piezoelectric lighter or a lighter sold under TESLA COIL LIGHTERS® that is designed to arc an electric discharge through the material in the self-contained combustion chamber.