A floating humidifier using a vertical power transmission scheme according to an embodiment of the present disclosure includes: a wireless power transmitting unit including a substrate and a vertical structure vertically arranged on the substrate, and configured to transmit electric power in a magnetic induction scheme through the substrate and the vertical structure; a water container including an accommodation portion in which water is accommodated and a fastening portion protruding from a center of the accommodation portion and fitted in the vertical structure above the wireless power transmitting unit; and a humidification generating unit inserted into the fastening portion of the water container through a vertically penetrated fastening hole and configured to generate a current using a magnetic force induced by the wireless power transmitting unit to drive a humidifier.

A sprayer that senses the presence or character of a surface to be sprayed includes one or more sensors configured to detect a presence or character of a surface to be sprayed; and a dispenser assembly including one or more components configured to modify at least one spray characteristic of a formulation based on an input from at least one of the one or more sensors indicative of the presence or character of the surface to be sprayed.

A secondary ultrasonic nebulisation device is disclosed comprising: a liquid sample delivery capillary; a sample receiving surface arranged for receiving a liquid sample from the capillary; and an ultrasonic transducer configured for oscillating the surface so as to nebulise the liquid sample received thereon, wherein the device is configured such that the oscillations of the surface by the ultrasonic transducer cause charged droplets and/or gas phase ions to be generated from the sample.

A method of prepping a cylindrical inner surface of a bore using a high-frequency forced pulsed waterjet apparatus entails generating a pressurized waterjet using a high-pressure water pump, generating a high-frequency signal using a high-frequency signal generator, applying the high-frequency signal to a transducer having a microtip to cause the microtip to vibrate to thereby generate the high-frequency forced pulsed waterjet, and rotating the rotatable ultrasonic nozzle inside the bore to prep the inner cylindrical surface of the bore using the high-frequency forced pulsed waterjets exiting from the angled exit orifices of the rotatable ultrasonic nozzle.

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.

In a nebulizer of the present invention, a main body is being mounted with a power supply unit and an oscillation unit generating an oscillation output including a first frequency component and a second frequency component different from each other. A first replacement member is being mounted with an atomization unit configured to atomize, using the first frequency component, a first liquid that is supplied. A second replacement member is being mounted with an atomization unit configured to atomize, using the second frequency component, a second liquid that is supplied. The first and/or the second replacement members include a functional unit configured to operate with an additional frequency component different from the first and second frequency components. A replacement member attached to the main body receives the oscillation output including the first, second and additional frequency components from the main body.

A sprayer that senses the presence or character of a surface to be sprayed includes one or more sensors configured to detect a presence or character of a surface to be sprayed; and a dispenser assembly including one or more components configured to modify at least one spray characteristic of a formulation based on an input from at least one of the one or more sensors indicative of the presence or character of the surface to be sprayed.

A substrate treating apparatus includes a treatment unit including a container, and a support member in the interior of the container to support a substrate, the treatment unit being configured to treat the substrate a nozzle unit having a treatment liquid nozzle for supplying a treatment liquid to the substrate provided in the treatment unit and an inspection unit that inspects whether the treatment liquid is normally discharged from the treatment liquid nozzle. The nozzle further includes a nozzle driver that moves the treatment liquid nozzle from a process position at which the substrate is treated by the treatment unit and an inspection position at which the treatment liquid nozzle is inspected by the inspection unit.

A secondary ultrasonic nebulization device is disclosed comprising: a liquid sample delivery capillary; a sample receiving surface arranged for receiving a liquid sample from the capillary; and an ultrasonic transducer configured for oscillating the surface so as to nebulize the liquid sample received thereon, wherein the device is configured such that the oscillations of the surface by the ultrasonic transducer cause charged droplets and/or gas phase ions to be generated from the sample.

An aerosol generating device includes an aerosol generator and a plug. The aerosol generator includes a container and an atomizing module arranged in the container. The container has a liquid chamber, an aerosol chamber, and an insertion slot defining an insertion direction. The liquid chamber and the aerosol chamber are respectively arranged at two opposite sides of the atomizing module, and are in spatial communication with each other through the atomizing module. The atomizing module includes two electrode regions having the same polarity and being electrically connected to each other. The plug is detachably inserted into the insertion slot of the container along the insertion direction, and a conductive terminal of the plug contacts the two electrode regions.