An inhalation-synchronized fluid dispenser device having a body (10) with a mouthpiece (400), a reservoir (100), a valve (200) assembled by a fastener element (5) on the reservoir (100). The device includes a blocking element (500) that pivots about a pivot axis B between a blocking position and an actuation position; a trigger element (600) that pivots about a pivot axis C; and an inhalation-controlled trigger system. The device includes an actuator member (800) mounted to move axially between a rest position and a primed position. A spring (850) is arranged so that when the actuator member (800) moves towards its primed position, the spring (850) is compressed, so as to transmit an axial force (F) to the reservoir (100).

An electronic cigarette includes a container for storing a tobacco flavored liquid, an atomizer connected to the container to atomize the tobacco flavored liquid by an electric heating, a battery tube to power the atomizer, and an actuating film movably positioned in the battery tube to control the atomizer.

The invention relates to an internal seal system. The internal seal may be incorporated into a pre-filled, small-volume nebulizer assembly with a T-connector. The small-volume nebulizer may be pre-filled with at least one unit-dose of medicine and hermetically sealed until use by an input port seal and the internal seal. The internal seal may operate as a valve when the assembly is changed into a second configuration.

An inhalation-synchronized fluid dispenser device having a body provided with a mouthpiece, a fluid reservoir containing a fluid and a propellant gas mounted to slide axially, a metering valve including a valve member assembled on the reservoir for selectively dispensing the fluid. The device also includes an actuator element movable and/or deformable between a non-actuation position and an actuation position; and an inhalation-controlled trigger system including an inhalation-sensitive member deformable and/or movable under the effect of inhaling so as to move and/or deform the actuator element from its non-actuation position towards its actuation position. The actuator element is a locking element that, in its non-actuation position, enables the valve member of the metering valve to move axially in the body together with the reservoir, preventing said metering valve from being actuated when the reservoir is moved axially in the body without inhaling.

A nasal inhaler for the inhalation of inhalable substances comprise: a canister having an interior reservoir containing pressurised inhalable substances including fluid; a metering valve including a metering chamber and a valve stem defining a communication path between the metering chamber and the interior reservoir, the communication path including an opening configured to permit flow between a transfer space inside the valve stem and the interior reservoir, the interior reservoir being arranged for orientation above the metering chamber whereby gas located within the metering chamber is replaced with liquid from the interior reservoir.

An inhaler is provided that includes a controller, a driver, an atomizer and one or more sensors for detecting information about a velocity of inhalation of a user of the inhaler. The controller is configured to dispense an inhalant from the inhaler during an inhalation of the user based on information about the velocity of inhalation of the user. Such information can include a duration of maximum inhalation velocity or an increase or maximum in the acceleration in inhalation velocity. Embodiments of the inhaler can be used to enhance the delivery of drugs and therapeutic agents for those patients having a weakened respiratory system who are unable to take a deep or full breadth, e.g., patients having asthma or COPD. Embodiments of the inhaler can be used to deliver a variety of drugs and therapeutic agents including agents for the treatment of asthma, diabetes, epilepsy and heart disease.

The invention relates to an internal seal system. The internal seal may be incorporated into a pre-filled, small-volume nebulizer assembly with a T-connector. The small-volume nebulizer may be pre-filled with at least one unit-dose of medicine and hermetically sealed until use by an input port seal and the internal seal. The internal seal may operate as a valve when the assembly is changed into a second configuration.

A device including a body with a mouthpiece, a fluid reservoir mounted to slide relative to the body, a valve, a blocking element movable and/or deformable between a blocking position in which the metering valve cannot be actuated, and an actuation position in which the metering valve can be actuated; a trigger element movable and/or deformable between a locking position and a release position; and an inhalation-controlled trigger system. The blocking element including a projection that, in the locking position, co-operates with a shoulder of the trigger element to define a latch that prevents the blocking element from moving and/or deforming. The blocking element includes a lateral projection that, in the locking position of the trigger element, co-operates with a bearing surface of the trigger element to form, in the locking position of the trigger element, a second contact point between the blocking element and said trigger element.

A device for delivering medication to a user may include a main body, an electronics module, and a slider. The main body may include a mouthpiece, a medication reservoir, and a mouthpiece cover, where the mouthpiece cover may be hinged to the main body. The electronics module may include a communication circuit, a pressure sensor, and a switch. The slider may be configured to engage the switch when the mouthpiece cover moves from a closed position to an open position. The switch may be configured to switch the electronics module from an off state or a sleep state to an active state. The electronics module may be configured to never return to the off state after the mouthpiece cover is moved to expose the mouthpiece for the first time by the user.

In an embodiment, a metered dose inhaler (MDI) training device is provided herein. The MDI training device may include a housing having an inhalation port, an opening for receiving ambient air, the inhalation port and the opening are fluidly connected to provide an air flow channel, and a valve associated with the air flow channel, the valve having an opened state and a closed state, and an actuation member, wherein the valve is not allowed to enter the opened state if the actuation member is actuated prior to inhalation through the inhalation port.