An apparatus for dispersing particles in a fluid, comprising: a flow divider for receiving the fluid and for separating the fluid into a first fluid stream and a second fluid stream; first and second fluid branches for receiving the fluid streams; a branch joining section for receiving the fluid streams, the branch joining section having a collision zone for allowing the first and second fluid streams to collide; a first nozzle that is arranged in the first fluid branch; and a second nozzle is arranged in the second fluid branch, the first nozzle comprising an orifice that is followed by a fluid diverging section.

Disclosed is a gas distributor, including: a nozzle unit formed by joining a pair of nozzle members together such that the nozzle members face each other with a first nozzle gap defined between the nozzle members; and a nozzle assembly in which at least two nozzle units are assembled together in parallel, in which the nozzle gap includes a first flow path formed in parallel in a direction of the nozzle member, and a second flow path extended from the first flow path, formed with a smaller width than a width of the first flow path along a bonded surface, and discharging gas through an end portion of one side of the second flow path, and the second flow path is extended with the first flow path, and is inclinedly provided so that a width is gradually decreased in a portion adjacent to the first flow path.

A nozzle member (14) of a personal care device (10) comprising: a nozzle head (16) positioned at an end of the nozzle member; and an orifice (40) formed in a surface (30) of the nozzle head, wherein the orifice comprises at least one liquid jet orifice (42) configured to allow the liquid and/or air to exit the nozzle head in the form of a jet, and at least one liquid sheet orifice (40a-d) configured to allow the liquid and/or air to exit the nozzle head in the form of a sheet.

A toilet assembly includes a toilet body and a nozzle system. The toilet body defines a toilet bowl and a rim area disposed along an upper edge of the toilet bowl. The rim area includes a flange defining an opening. The nozzle system includes a nozzle having a first end configured to be fluidly coupled to a water supply conduit and a second end fluidly coupled to the rim area. The second end defines an outlet formed at a compound angle. The connector assembly detachably couples the nozzle to the flange such that the nozzle extends through the opening.

A method of improving the performance of a powder dusting tip delivering powdered diatomaceous earth powder minimizing clogging in powder bulb duster tips through the use of tips with a more free flowing configuration and different spray patterns than the standard tip assembly and a flexible one piece powder dusting tube, which is attached to the tips which connects to reservoir of powder type insect repellents such as diatomaceous earth pesticides, boric acid pesticides, sevin based insecticides, deltamethrin based insecticides, and permethrin based insecticides as well as other powdered insecticides through threaded connections, made from flexible rubber tubing supported by memory wire that allows the powder duster tip to be positioned for hard to reach areas.

Nozzle assemblies adapted to produce an oscillatory spray pattern. A rotor member having at least one lobe engaged with one or more cavities of a stator surface for defining an oscillatory movement of the rotor member in response to a motive fluid along the rotor member and stator surface. The nozzle assembly directing the motive fluid along one or more tapered surfaces, such as complementary tapered surfaces of the rotor and stator surface. The rotor member is operatively coupled with the spray member for oscillatory movement therewith. The spray member adapted to receive the motive fluid and emit the fluid as a spray from the nozzle assembly. The spray having an oscillatory pattern that matches the oscillatory movement of the rotor.

A configurable nozzle includes a nozzle body having a reception chamber configured to receive an application mixture. The nozzle body includes a nozzle orifice. At least one orifice assembly is coupled with the nozzle body, the at least one orifice assembly includes an orifice plate movably coupled with the nozzle body. The orifice plate extends along at least a portion of the nozzle orifice, and movement of the orifice plate changes one or more of the size or shape of the nozzle orifice. An orifice actuator is coupled with the orifice plate, and the orifice actuator is configured to move the orifice plate.

A spray applicator (1) for spraying a fluid onto a web (W) of material has a first group of spray nozzles (10A) arranged along a first axis (FA) and a second group of spray nozzles (11A) arranged along a second axis (SA). The first (FA) and second (SA) spray nozzle axes are arranged on the same side of a plane in which the web (W) is run. Each spray nozzle (10A, 11A) has an elongated spray opening configured to spray fluid in a direction towards the web (W). The first spray nozzle opening of the first group of spray nozzles (10A) has an inclination angle which differs from the second nozzle opening inclination angle of the second group of spray nozzles (11A).

A rotary water outlet mechanism and a flushing device, including a housing having a gradually changing curved surface and a water outlet part connected to one end of the housing. A water separator provided with at least one oblique through hole, an impeller and a water guide are provided in sequence in a water flow direction between the housing and the water outlet part. The impeller is in transmission connection with the water guide rotatably connected with the water outlet part, one end of the water guide is provided with a water outlet. The water flow enters the housing, and under a guidance of the gradually changing curved surface of the housing, the water flow passes through the oblique through hole, and flows through the impeller and drives the impeller to rotate, such that the water guide rotates to generate a rotating water flow.

A smooth bore nozzle includes an inlet section having planar converging inlet side walls and top and bottom walls forming an unobstructed rectangular inlet section fluid passageway; a straight section having planar side walls and top and bottom walls contiguous with the inlet side walls and top and bottom walls forming an unobstructed rectangular straight section fluid passageway; and an outlet section having planar converging outlet top and bottom walls and diverging outlet side walls contiguous with the straight section side walls and top and bottom walls, and an unobstructed rectangular outlet section fluid passageway; wherein the cross-sectional area of the fluid passageway remains constant or decreases in a downstream direction, and a perimeter of the cross section increases along a length of the inlet section, and a perimeter of a cross section of the rectangular outlet section fluid passageway decreases along a length of the outlet section.