A fluid dispenser device having a body, a reservoir including a neck, a dispenser member mounted on the reservoir, a lateral actuator system secured to the body and including a lever pivotally mounted, and a transverse projection formed directly on the reservoir and formed on or below the neck and co-operating, during actuation, with the lateral actuator system. The reservoir includes two parallel transverse projections that extend in symmetrical manner respectively on either side of the reservoir, a radial recess being defined between the two parallel transverse projections, the radial recess co-operating with the body so as to guide the reservoir axially during actuation.

The present invention relates to a device (1) for neutralizing ectoparasites. In order to prevent a release of toxic substances into a host body by an ectoparasite during its removal the device comprises a container (3) containing a neutralizing freezing medium, preferably an aerosol cooling medium, in particular preferably an aerosol of a mixture of isohexadecane, isopropyl myristate and cooling medium, preferably 1,1,1,2-tetrafluoroethane; a body (2), in which the container (3) is located and which comprises a terminal front wall (21) with a discharge opening (212) located on the axis (O) of the outlet (31) of the container (3) and a terminal rear wall (22); a body end part (23) in a form of a convex shell element that encloses the discharge opening (212) of the terminal front wall (21) on the external side of this wall (21) and comprises an exhaust opening (231) located on the axis (O) of the discharge opening (212) of the terminal front wall (21) at a distance from this discharge opening (212) and at least one vent opening (232).

Provided is an unmanned aerial vehicle capable of carrying an aerosol container, comprising: a discharge unit with a discharge outlet for discharging contents of the aerosol container from the discharge outlet; a camera capable of capturing footage of the discharge range of the contents; an information acquiring unit for acquiring predetermined information; and an estimation unit for estimating an estimated landing position of the contents based on information obtained by the information acquiring unit. The unmanned aerial vehicle may include a camera capable of capturing footage of a discharge range of the contents; and a coupling unit that is couple with the camera and is a posture control mechanism with rotational degrees of freedom to change a posture.

Provided is a discharge apparatus using an aerosol container, including a holding container for holding contents, a pressurizing unit configured to inject a filling material within the holding container by the aerosol container to pressurize the holding container, and a discharge unit configured to discharge the contents to the outside of the holding container. An unmanned aerial vehicle including the above-described discharge apparatus is also provided. A discharge method using an aerosol container, comprising: holding contents of a holding container; injecting a filling material within the holding container by the aerosol container to pressurize the holding container; and discharging the contents to the outside of the holding container is also provided.

There is provided an unmanned aerial vehicle including: a detection unit configured to detect a living body; an aiming unit configured to aim at a specific part of the living body based on a detection result of the living body; and a shooting unit configured to shoot a content, which is stored in a container, to the specific part. There is provided a shooting method for shooting a content by using an unmanned aerial vehicle, the method including: detecting a living body; aiming at a specific part of the living body based on a detection result of the living body; and shooting a content, which is stored in a container, to the specific part.

A discharge apparatus and a discharge method for a moving vehicle are provided in which a content in an aerosol container can be stirred in a state where the aerosol container is mounted on the moving vehicle, so that the content of a constant quality can be discharged. The discharge apparatus for a moving vehicle, which is provided with an aerosol container mounted on the moving vehicle and discharges the content in the aerosol container, is characterized by including a stirring means that stirs the content by causing the aerosol container to rotate, reciprocate, swing, vibrate, or otherwise move with respect to the moving vehicle.

A device having a body (10), a reservoir (100) axially slidable relative to the body (10), a metering valve (200), a blocking element (500), a triggering element (600), a triggering system controlled by inhalation (60), an actuating member (800) cooperating with the blocking element (500), a cover (11) with a central axial sleeve (110) with a lower axial edge (111), a push member (810) mounted in the cover around the central axial sleeve (110), and a spring (850) disposed around the central axial sleeve (110) between a bottom of the cover and the push member. The lower axial edge (111) of the central axial sleeve is deformed after assembly of the push member and the spring in order to produce a retention collar of the push member and form a pre-assembled subassembly that is fixed to the body.

A nozzle assembly provides an adapter configured for insertion into a pressurized container, wherein a nozzle has been removed from the pressurized container. A tubing has a first end connected to the adapter and a second end. A discharge nozzle is releasably connected to the second end of the tubing.

A nasal drug delivery device for delivering a plume derived from a propellant and a drug compound. The drug corn-pound is in an intranasal dosage form in the form of powder, suspension, dispersion, or liquid. The propelled intranasal dosage form is deposited within the upper nasal cavity such as the olfactory region. The drug deposited within the olfactory region is delivered to the brain avoiding the blood-brain-barrier. Hydrofluoroalkane propellant from a pressurized canister is channeled to a diffuser and drug-containing channel where the intranasal dosage form is aerosolized. The aerosolized intranasal dosage form passes through a nozzle thus delivering a plume to the user's upper nasal cavity.

A refill assembly (129) for use in a medicinal inhaler (100). The refill assembly includes a patient port (110), and an adapter (118) configured to cause a dose of medicament to be released. The adapter is movable between a first position in which a dose of medicament is not released and a second position in which a dose of medicament is released. The refill assembly further includes a lockout member (117) movable between (i) a first (locked) position in which the adapter is not movable from its first position to its second position, and (ii) a second (unlocked) position in which the adapter is movable from its first position to its second position.