The apparatus has an atomizer for the dispersal of a liquid and has an enclosed removable cartridge assembly with a reservoir of liquid and a wick with one end in communication with the liquid and a vibrating transducer in contact with another end of the wick; the transducer, wick and cartridge of liquid are arranged to allow a capillary volume of liquid from the wick to vibrate together to disperse the liquid in a direction away from the wick.

The present disclosure provides an aerosol delivery device that may comprise a housing defining an outer wall. The device may further include a power source and a control component, an exit aerosol path defined through an opening, a tank portion that includes a reservoir configured to contain a liquid composition, and an atomization assembly configured to vaporize the liquid composition to generate an aerosol. The atomization assembly may comprise two or more vibrating assemblies each of which includes a mesh plate. In some implementations, the mesh plates may be substantially coplanar and substantially perpendicular to the exit aerosol path. In other implementations, the mesh plates may be non-coplanar.

A mist generator device (400) for delivering a mist to a user, the mist generator device (400) for use with a driver device (202). The mist generator device (400) comprises a housing (204) comprising a liquid chamber (218), the liquid chamber containing a liquid to be atomised, the liquid comprising a therapeutic. A sonication assembly (425) is coupled to the housing (204) the sonication assembly (425) comprising an ultrasonic transducer (215), a first assembly portion (426) and a second assembly portion (428) coupled to the first assembly portion (426). At least one of the first assembly portion (426) and the second assembly portion (428) comprises a resiliently deformable section that forms a seal between the first assembly portion (426) and the second assembly portion (428) which minimises or prevents a fluid from leaking between the first assembly portion (426) and the second assembly portion (428).

The present disclosure provides an aerosol delivery device that may comprise a housing defining an outer wall. The device may further include a power source and a control component, an exit aerosol path defined through an opening, a tank portion that includes a reservoir configured to contain a liquid composition, and an atomization assembly configured to vaporize the liquid composition to generate an aerosol. The atomization assembly may comprise two or more vibrating assemblies each of which includes a mesh plate. In some implementations, the mesh plates may be substantially coplanar and substantially perpendicular to the exit aerosol path. In other implementations, the mesh plates may be non-coplanar.

An aerosol-generating device is provided, including: a reservoir containing a liquid aerosol-forming substrate; an aerosol-generating element configured to generate an aerosol from the liquid aerosol-forming substrate, the aerosol-generating element including an electrically operated, vibrating transducer; an electrically operated pump configured to deliver the liquid aerosol-forming substrate from the reservoir to the aerosol-generating element; and control circuitry connected to the pump and the transducer, the control circuitry being configured to control operation of the pump in dependence on one or more operating parameters of the transducer. A method of operating the aerosol-generating device is also provided.

A mist inhaler device (200) for generating a mist comprising a therapeutic for inhalation by a user. The device comprises a mist generator device (201) and a driver device (202). The driver device (202) is configured to drive the mist generator device (201) at an optimum frequency to maximise the efficiency of mist generation by the mist generator device (201).

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, a capillary element, arranged between the liquid chamber and the sonication chamber,
the sonication chamber comprising means of ultrasonic vibrations having an atomization surface.
a capillary element retainer,
wherein the capillary element retainer having a body surrounding the means of ultrasonic vibrations, the retainer body having an radial arm extending to the atomization surface for retaining the capillary element in surface contact with the atomization surface as depicted in FIG. 3.

A piezoelectric actuation platform (1) including piezoelectric substrate (3) formed from a single crystal piezoelectric material, and at least one simple electrode (5) in contact with the piezoelectric substrate for applying an electrical signal to the substrate such that a lamb or surface acoustic wave can be generated within said substrate.

The present invention includes and provides a method of delivering a medicament to an eye of a subject in need thereof a solution, the method comprising: (a) providing droplets containing the medicament with a specified average size and average initial ejecting velocity, and (b) delivering the medicament to the eye, where the droplets deliver a percentage of the ejected mass of the droplets to the eye.

An ultrasonic atomization sheet (1) and atomizer and an ultrasonic electronic cigarette are disclosed. The ultrasonic atomization sheet (1) comprises a flaky piezoelectric substrate (101), a surface electrode (102) attached to one surface of the piezoelectric substrate (101), and a drive electrode (103) attached to the other surface of the piezoelectric substrate (101). The piezoelectric substrate (101) is elongated. The piezoelectric substrate (101) is composed of an oscillating section (106) and a fixed section (107) connected to each other. The surface electrode (102) is fixed on one surface of the oscillating section (106), and the drive electrode (103) is fixed on the other surface of the oscillating section (106). The surface electrode (102) and the drive electrode (103) are both rectangular or circular.