A linear oscillating water jet is capable of spraying in a linear oscillating fashion without deviating from a consistent linear path such that a resulting linear spray does not extend beyond a targeted area. Through the use of an internal turbine, energy from an incoming pressurized liquid is used to create rotational motion, which is subsequently converted into an oscillatory, back and forth linear motion by way of a rocker assembly that connects a nozzle assembly to the internal turbine. The oscillatory, linear motion of the rocker assembly is translated into a linear, back and forth rocking motion for the nozzle assembly.

The invention discloses a water outlet device, which includes a shell part, a movable plate and a driving mechanism. The shell part is provided with a water outlet part. The driving mechanism connects the movable plate to drive the movable plate to slide relative to the water outlet part between the first position and the second position; the water outlet part has a water outlet, and the water outlet has a first inner side wall and a second inner side wall; the movable plate is provided with an insertion part, which has a first outer side wall and a second outer side wall side wall, and the insertion part is inserted into the water outlet; wherein: the movable plate is located in the first position: the water outlet forms a first water outlet channel sandwiched between the first outer side wall and the first inner side wall; the movable plate is located in the second position: the water outlet forms a second water outlet channel sandwiched between the second outer side wall and the second inner side wall, that is to say, the movable plate circulation makes the outlet water from the first water outlet channel to the second water outlet channel circulate to produce mixed water spray.

A jet former, including an impeller wheel rotatably mounted about an axis of rotation, having a blade arrangement, a control device, and at least one movably mounted nozzle. The control device is arranged and constructed to convert a rotation of the axis of rotation into a movement of the at least one nozzle. At least one blade of the blade arrangement is arranged and formed to divide the water flow directed towards the at least one blade in a direction of flow into at least a first partial flow and a further partial flow, to deviate the first partial flow in a first partial flow direction, and to deviate the other partial flow in a further partial flow direction. The direction of flow, the first partial flow direction and the further partial flow direction in each case differ from each other.

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

Provided is an oscillating bidet including a housing configured to receive a flow of water and a bidet wand configured to oscillate under the flow of water.

Provided is an oscillating bidet including a housing configured to receive a flow of water and a bidet wand configured to oscillate under the flow of water.

The present disclosure discloses a swing structure and a corresponding water outlet device. A water passing chamber in a body of the swing structure is equipped with a swing member, and an upper end of the swing member is provided with a recess facing a water inlet hole of the water passing chamber. The water flow impacts the recess to drive the swing member to swing to one side randomly. After a lower end of the swing member is out of range of a water outlet hole of the water passing chamber, the upper and lower ends of the swing member are adjacent to or abut against a wall of the water passing chamber, so that the swing member can swing back and forth.

The present invention is directed to a rotor or sprinkler that allows its watering arc to be rotated, increased, or decreased by user-rotation of the sprinkler's rotating nozzle base.

The present invention is directed to a rotor or sprinkler that allows its watering arc to be rotated, increased, or decreased by user-rotation of the sprinkler's rotating nozzle base.

According to some embodiments, an oscillating sprinkler system is provided that includes: a central tubular portion having at least one row of flexible nozzles; a cam plate located inside a peripheral wall of said central tubular member, said cam plate having a plurality of cam slots for adjusting positions of said flexible nozzles upon rotation of said cam plate within said peripheral wall; and said peripheral wall including a window via which an edge of said cam plate is observable during rotation of said cam plate such as to designate an extent of angular displacement of the nozzles based on the positioning of the cam plate within the window.