A liquid dispensing system for dispensing two or more liquids of different composition, viscosity, solubility and/or miscibility at high filling speeds into a container through a unitary dispensing nozzle to improve homogeneous mixing of such liquids, while said nozzle is an integral piece free of any movable parts.

Embodiments of the disclosed subject matter provide a micronozzle array formed from monolithic silicon. The micronozzle array may have a plurality of nozzles, where each nozzle of the plurality of nozzles including an integrated plug valve that allows flow from the nozzle to be attenuated separately from each other nozzle of the plurality of nozzles. Each of the plurality of nozzles may include a microchannel, formed from the monolithic silicon, having a first channel portion and a second channel portion, where the first channel portion is narrower than the second channel portion, and where the first channel portion forms an aperture of the nozzle that is configured to eject vapor from the microchannel. Each of the plurality of nozzles may include a stem, formed from the monolithic silicon that includes the integrated plug valve is suspended in the microchannel to attenuate the flow from the nozzle.

A shower head structure includes a main body, a face plate, and a switching device installed inside the main body for controlling an outflow of water from the face plate. The circumferential portion of the face plate is provided with a plurality of water outlet units. Each water outlet unit includes a plurality of jet orifices. The water flowing from the plurality of jet orifices forms a bunched spout. The bunched spout includes a plurality of fine spouts. The water won't spray about. Since the diameter of the jet orifice is small, the force of the fine spouts is stronger. The water-saving effect is good. The shower head can be used for low pressure environment.

The present invention is directed to a nozzle holder, having a body, a dispensing chamber, a plurality of valves in the dispensing chamber, movable between an open and closed position, a rotationally movable plate in contact with a first end contact surface of each valve to control the movement of said valve between its two positions; wherein the peripheral edge of the plate has high and low edge portions, in the opening position of a valve, the first end contact surface is in contact with a first plate edge portion, and in the closing position, the first end contact surface of the valve is in contact with a second plate edge, the second edge being different from the first edge.

A multi-function pull head comprises a valve seat, and that includes: a water input connector, an outer shell, a water output portion, a first function switching structure, a second function switching structure, and a water output panel. The water input connector is connected onto the outer shell through a thread structure, and two through holes are provided on the outer shell, for the first function switching structure and second function switching structure to pass through respectively. The water input connector is disposed on a top portion of the valve seat. The outer shell is disposed on a bottom portion of the water input connector, to protect the valve seat. The outer shell is engaged to the water input connector through an engaging ring. The water output portion is disposed at a lower portion of the valve seat.

A waterway switching mechanism in a shower includes a fixed portion and a rotating block connected to a fixed portion. The fixed portion has a plurality of switching positions each with a sealing portion that can move relative to the fixed portion in the first direction. The waterway switching is controlled through the activity of the sealing portion. The outside wall is provided with a pushing portion. The sealing portions are circumferentially spaced apart and surround outside of the rotating block. Each sealing portion is provided with a fitting portion capable of cooperating with the pushing portion, when the rotating block rotates the pushing portion follows the rotating block and move in a circumferential direction, and the fitting portion is driven to move in the first direction by a circumferential movement of the pushing portion, and the first direction intersects with vertical plane of the vertical swivel axis of rotation.

A valve device for controlling fluid flow direction includes a cap; a valve seat secured to the cap to form a first outlet, a second outlet, and an inlet between the first and second outlets; a stem moveably disposed in a chamber between the first outlet and the second outlet; a pulse-width-modulated electromagnetic valve being adjacent to the first outlet; and a channel disposed between the stem and the pulse-width-modulated electromagnetic valve. In a first operation the pulse-width-modulated electromagnetic valve opens the first outlet and closes the second outlet so that water flows from the opening to the first outlet via the chamber and the channel. In a second operation the pulse-width-modulated electromagnetic valve closes the first outlet and opens the second outlet so that water flows from the opening to the second outlet via the chamber.

An inductive shower head, comprising an outer shell which is provided with a water inlet and multiple groups of water outlet holes; a third water outlet cavity and a first water outlet cavity which are independent of each other inside the outer shell can be communicated with the corresponding groups of the water outlet holes respectively, a third water inlet cavity is arranged between the first water inlet cavity and the third water outlet cavity; the first water inlet cavity is communicated with the third water inlet cavity; the position where the third water inlet cavity is communicated with the third water outlet cavity is correspondingly provided with a control assembly which uses an electromagnet to control the two cavities to communicate with or block from each other; the shower head also comprises a first inductor and a power supply unit which is used for supplying power to the electromagnet.

A fluid switch-over device of the type that may be used in sanitary shower devices, the fluid switch-over device including a housing body which includes a fluid inlet channel and a plurality of fluid outlet channels arranged fluidically in parallel, a switch-over body which includes a fluid inlet, at least one fluid outlet and a fluid duct from the fluid inlet to the fluid outlet and is disposed within the housing body to be translationally movable axially parallel and rotationally movable in a combined manner in relation to a longitudinal axis between at least two different operating positions. The switch-over body in each of the different operating positions is in fluid connection with the fluid inlet channel via its fluid inlet and differentially unblocks or blocks at least partially a fluid connection of its fluid outlet to the respective fluid outlet channel. An actuation unit for actuating the switch-over body includes an operating element disposed on the housing body to be user-operable.

A pressure washer for dispensing either water or a water-chemical mixture includes an injector for injecting chemical into water flowing through a hose at a relatively high flow rate. A sprayer connected to the hose has a passage having one upstream, one middle, and first and second downstream portions. The first downstream portion is connected to a high pressure conduit and the second downstream portion is connected to a high flow conduit less resistance to fluid flow than the high pressure conduit. A valve between the upstream portion and the middle portion selectively allows fluid flow to the middle portion of the passage. Another valve between the middle portion and downstream portion selectively allows flow to the second downstream portion and high flow conduit. Otherwise the valve directs flow through only the first downstream portion and high pressure conduit, which limits flow rate so as not to activate the injector.