An atomizer is provided for dispensing liquids into the air. In some implementations, a device is provided for generating atomized fluid specifically, but not exclusively, for production of small droplets of scented oil and other fluid-based fragrances, among other types of liquids. In some embodiments, the device comprises a tube-shaped element having a proximal opening and a distal opening, wherein media positioned inside the tube is forced out of the proximal opening via an aperture plate.

An aerosol generator for generating an aerosol from a fluid, comprising: a vibratable membrane having a first side for being in contact with the fluid and an opposite second side, the membrane having a plurality of through holes penetrating the membrane in an extension direction from the first side to the second side, whereby the fluid passes the through holes from the first side to the second side when the membrane is vibrated for generating the aerosol at the second side, each through hole having along its extension direction a smallest diameter, a larger diameter that is larger than the smallest diameter and defined by that diameter that is closest to triple, preferably twice said smallest diameter, each through hole having a nozzle portion defined by that continuous portion of the through hole in the extension direction comprising the smallest diameter of the through hole and bordered by the larger diameter of the through hole, wherein the ratio of the total length of each through hole in the extension direction to the length of a respective one of said nozzle portions in the extension direction is at least 4, preferably at least 4.5 and most preferred equal to or larger than 5.

An aerosol generating apparatus, especially a personal vaporizer device such as an electronic smoking article, generates an aerosol from a source of aerosol-forming substance. The aerosol generating apparatus includes a receiving portion configured to receive a consumable unit, such as a charge or cartridge including a source of aerosol-forming substance, and at least one locating member for locating the consumable unit within the receiving portion. The at least one locating member is configured to locate or position the consumable unit within the receiving portion such that an airflow path extends along outer sides of the consumable unit and through the consumable unit entering at one end region thereof and exiting from an opposite end region thereof, with the outer sides of the consumable unit being arranged between the one end region and the opposite end region.

An aerosol generating apparatus, especially a personal vaporizer device such as an electronic smoking article, generates an aerosol from a source of aerosol-forming substance. The aerosol generating apparatus includes a receiving portion configured to receive a consumable unit, such as a charge or cartridge including a source of aerosol-forming substance, and at least one locating member for locating the consumable unit within the receiving portion. The at least one locating member is configured to locate or position the consumable unit within the receiving portion such that an airflow path extends along outer sides of the consumable unit and through the consumable unit entering at one end region thereof and exiting from an opposite end region thereof, with the outer sides of the consumable unit being arranged between the one end region and the opposite end region.

The device for diffusing volatile substances, which comprises a container (1) to house a liquid containing the volatile substances, a capillary element (2) partially housed in said container (1), a perforated element (3) through which volatile substances are diffused, and a piezoelectric element (4) in contact with said perforated element (3) and in contact with the capillary element (2), said piezoelectric element (4) causing the vibration of said capillary element (2), wherein the diffusion device also comprises an elastic element (5) on which said piezoelectric element (4) is mounted, said elastic element (5) being attached to said container (1) or to a housing (6) that surrounds said container (1). Said elastic element allows the piezoelectric element to be perfectly centered with respect to said capillary element.

A nebulizer has an aerosol generator mounted in a housing, and has a vibratable aperture plate mounted to an annular support and to which is attached a vibration generator piezo. A downstream annular resilient seal is mounted between the housing and the washer on a side of the aperture plate opposed to the liquid supply reservoir. An upstream resilient seal is in the form of a gasket and is mounted between the washer and the housing reservoir, and has an opening forming part of a throat over the aperture plate. The gasket has a washer-shaped body extending radially from a downstream-extending rim adjacent the aperture plate. There are two upwardly-directed ridges for engagement with a housing surface, and the gasket is configured so that when under axial compression the opening internal surface is tapered inwardly in a flow direction to form a funnel shape.

A vaporizer device may include a vaporizer body configured to couple with at least one vaporizer cartridge including a first reservoir and a second reservoir. The vaporizer device may include a first aerosol generation mechanism configured to generate a first part of an aerosol by at least vaporizing a first aerosol component present in a first vaporizable material in the first reservoir. The vaporizer device may also include a second aerosol generation mechanism configured to generate a second part of the aerosol by vaporizing a first aerosol component present in a second vaporizable material at a second temperature. The first part of the aerosol and the second part of the aerosol may be delivered, via a mouthpiece, to a user of the vaporizer device.

Provided is a discharge apparatus to which an aerosol container can be detachably mounted, the discharge apparatus including: a pressing unit configured to press a stem for opening and closing a valve of the aerosol container; and a buffer unit configured to buffer excess force, which is an amount of force by which force with which the pressing unit presses the stem has exceeded force to open the valve. The buffer unit may be configured to buffer the excess force exerted on the pressing unit by moving the pressing unit according to the excess force. The buffer unit may be configured to buffer the excess force exerted on the aerosol container by moving the aerosol container according to the excess force.

A cartridge that is releasably connectable with a housing of a microfluidic delivery device is provided. The cartridge has a reservoir for containing a fluid composition and a microfluidic die in fluid communication with the reservoir. The microfluidic die is configured to dispense substantially all of the fluid composition in a horizontal direction or downward direction relative to horizontal. The cartridge also includes an air flow channel disposed below the reservoir. The air flow channel extends from a fan to an air outlet. The air flow channel comprises a first region disposed adjacent to a fan, a second region disposed adjacent to the air outlet, and a third region joining the first and second regions. At least the second region is angled upward to the air outlet, relative to horizontal.

The disclosure relates to a perforated plate for an application apparatus for the application of a fluid onto a component, preferably a motor vehicle bodywork and/or an add-on part therefor. The perforated plate comprises at least three through-holes for the passage of the fluid, wherein the through-holes are assigned to a row of nozzles with a central region and two edge regions, wherein the at least one outermost through-hole in at least one edge region has at least one reference opening diameter that is smaller than at least one reference opening diameter of at least one through-hole in the central region. The disclosure also relates to an application apparatus and an application method with such a perforated plate.