An indirectly heated capillary aerosol generator comprises a capillary tube adapted to form an aerosol when liquid material in the capillary tube is heated to volatilize at least some of the liquid material therein and a thermally conductive material in thermal contact with the capillary tube. The indirectly heated capillary aerosol generator provides substantially even and uniform heating across the heated length of the capillary tube.

An indirectly heated capillary aerosol generator comprises a capillary tube adapted to form an aerosol when liquid material in the capillary tube is heated to volatilize at least some of the liquid material therein and a thermally conductive material in thermal contact with the capillary tube. The indirectly heated capillary aerosol generator provides substantially even and uniform heating across the heated length of the capillary tube.

The manufacturing of footwear includes the joining of components. The joining may be accomplished with adhesive. The adhesive, such as a polyurethane, is applied as a single-sided adhesive to a footwear component. The application of the adhesive can contaminate the system that is applying the adhesive with intentional over spray of the footwear component. The over spray ensures adequate coverage of the footwear component to allow a sufficient bond. A masking platform of the system masks portions of the system to limit the contamination caused by the over spray. Additionally, material brushes and scrapers may engage with components of the system to remove or limit adhesive contamination on those components. A vision system maps a surface of the footwear component to ensure the adhesive is applied for the specific article.

A device is described herein for priming and stimulating a fluid that enters a nozzle such that when the fluid experiences a phase change from liquid to gas, said phase change releases energy latent within molecules or atoms of any of the interior surface of the nozzle and the fluid, producing an energy release, thereby enabling that phase-changed gas to be used to generate energy using well-known techniques in the prior art.

A nozzle assembly of a windshield washer system of a vehicle includes a fluid feed line (106) that is configured to receive washer fluid from a washer fluid storage tank, at least one ball jet line (108, 110) coupled to the fluid feed line, and at least one fluidic line (112) coupled to the fluid feed line.

A buttock wiping device includes a wiping arm including a head portion configured to press a wiping material against the buttocks, a wiping arm drive unit configured to move the wiping arm, and a control unit configured to control operation of the wiping arm drive unit. The control unit controls a movement path of the wiping arm such that the head portion moves along the path of water sprayed from a cleansing nozzle of a warm-water cleansing device in cleansing of a private area. Alternatively, a private area position is estimated, and the control unit controls the movement path of the wiping arm such that the head portion reaches the estimated position. As another alternative, the control unit controls the movement path of the wiping arm such that the head portion reaches the private area position.

A buttock wiping device includes a wiping arm including a head portion configured to press a wiping material against the buttocks, a wiping arm drive unit configured to move the wiping arm, and a control unit configured to control operation of the wiping arm drive unit. The control unit controls a movement path of the wiping arm such that the head portion moves along the path of water sprayed from a cleansing nozzle of a warm-water cleansing device in cleansing of a private area. Alternatively, a private area position is estimated, and the control unit controls the movement path of the wiping arm such that the head portion reaches the estimated position. As another alternative, the control unit controls the movement path of the wiping arm such that the head portion reaches the private area position.

A plumbing fitting includes a housing and a missing valve. The housing includes a first aperture, a second aperture, a third aperture, and a mixing chamber in fluid communication with the first aperture, the second aperture, and the third aperture. The mixing valve is disposed within the housing. The mixing valve includes a first flow control valve that is configured to control a first flow of fluid from the first aperture to the mixing chamber.

A plumbing fitting includes a housing and a missing valve. The housing includes a first aperture, a second aperture, a third aperture, and a mixing chamber in fluid communication with the first aperture, the second aperture, and the third aperture. The mixing valve is disposed within the housing. The mixing valve includes a first flow control valve that is configured to control a first flow of fluid from the first aperture to the mixing chamber.

An electrostatic device that includes: an air flow regulator system including a pressure regulator and an air flow regulator; a liquid flow regulating system including a set of restrictors; an electrostatic system including an electrostatic emission antenna and an insulating hood of the electrostatic emission antenna; an air-liquid nozzle that is separated from the electrostatic emission antenna; a tank; a positive displacement pump and a low-wetting electrostatic application method.