A method for monitoring a nozzle mouthpiece for placing on a nozzle for spraying materials, in particular dispersions, emulsions or suspensions.

The present invention embodies a spray nozzle for mixing and spraying a mixture of liquid and dry material. The device is comprised of a liquid injector, a torpedo, a spray tip, and a mixing chamber. The mixing chamber is connected to a hose that directs dry material through the apparatus. Dry material is forced around and over the first end of the torpedo within the mixing chamber, slowing the speed of that material and focusing it toward the second end of the torpedo where it mixes with liquid exiting the spray tip at this second end. The torpedo blends the dry and liquid components more uniformly resulting in a more homogenous material.

A continuously variable nozzle system includes a nozzle body (5) with an inlet and an outlet. A conduit is defined between the inlet and the outlet by a series connection of components which includes a flow meter (10). The flow meter (10) has a chamber (83) with internal helical splines (82) that are configured to interact with a spray liquid passing through the chamber (83) and create a cyclone-like effect. A sphere (52) is located inside the chamber (83) for free movement along a circular path (106). A sensor is located outside of the chamber (83) and configured to detect motion of the sphere (52) and generate an output (9) signal in response to detected motion.

A foam generating device includes a housing defining an agitation chamber and a conditioning chamber. A cartridge assembly arranged within the agitation chamber defines an agitation flow path of the solution to increase a quantity of a gas in the solution. A conditioning assembly arranged within the conditioning chamber defines a tortuous flow path for the solution including a plurality of cylindrical discs configured to sequentially receive the solution. Each of the discs defines a plurality of radial ribs on a first side and on a second side opposite the first side, the first and second sides separated by a floor, and a disc passage defined in the floor. The conditioning assembly is adjustable in order to selectively define the tortuous flow path with a first quantity of radial ribs and second quantity of radial ribs in order to alter the aeration of the solution along the tortuous path.

A metering console (100) includes a housing (110) adapted to allow flow of a liquid (F) therethrough. The housing (110) is adapted to attach with one or more gardening devices (132, 152). The metering console (100) includes a display (170) associated with the housing (110). The metering console (100) is characterized in that the display (170) is rotatably engaged with the housing (110) of the metering console (100) such that the display (170) rotates along a central axis (A-A) of the housing (110).

A pumping system includes a pump and a motor operatively coupled to the pump. The motor is configured to drive the pump to increase a speed of expelling spraying fluid in response to the pumping system ascending to be above a threshold altitude and to decrease the speed of expelling the spraying fluid in response to the pumping system descending to be below the threshold altitude.

A sanitary washing device including: a nozzle discharging water toward a human body private part; a water guide part including a pipe line reaching from a water supply source to the nozzle, and guiding water supplied from the water supply source to the nozzle; a vacuum breaker provided on a path of the water guide part, and taking air into the pipe line when water does not flow in the water guide part; and an ultraviolet irradiation part provided between the vacuum breaker and the nozzle on the path of the water guide part, and including a flow channel flowing water and a light emitting part irradiating ultraviolet rays to the water flowing in the flow channel is provided.

In a pump cap for a pharmaceutical container, there is an electronic unit adapted to record activation of the pump cap by a user for the release of the contents of the container and release the reporting signals in a wireless manner, and to enable operational energy to come from outside, via an appliance in the form of a personal digital assistant, in a wireless manner, in order to record one or several pump cap activations by a user and the wireless release of the reporting signals from one or more pump cap activations.

A paving system includes a paving machine, a controller, and a control panel. The paving machine includes a machine frame, a drive assembly, and a paving material delivery assembly, which includes a hopper, a conveyor assembly, an auger, and a screed. The paving machine also includes an emulsion fluid delivery assembly, including a tank of emulsion fluid and a spray bar including a plurality of nozzles. The controller is wired or wirelessly coupled to the tank and the spray bar to control at least one of a temperature, pressure, or delivery rate of the emulsion fluid through the nozzles.

A battery-powered liquid pump sprayer having a control system capable of providing the user with a selectable series of defined spray application pressures, flow rates, and patterns that are accurately sustained over the duration of a spray application session. The pump sprayer has a control system for use with a battery having a voltage supply amount and a motor having a voltage demand amount that is less than the voltage supply amount. A microcontroller of the control system is coupled to the battery and the motor, and is programmed to provide a supply voltage from the battery to the motor and to ensure that the supply voltage is at least as much as the voltage demand amount