A nozzle adjustment member for a sprinkler is revealed. A plurality of nozzle tubes aligned in at least one row is positioned on a wall of a hollow pipe. A top end of the nozzle tube is projecting to an outside of the hollow pipe. At least one pivot support is disposed on the outside of the hollow pipe. Each pivot support is pivoted with an adjustment piece having a plurality of guiding openings. The guiding openings are positioned over the plurality of nozzle tubes correspondingly. A nozzle cover is connected with the outside of the hollow pipe for covering the adjustment piece. A plurality of long through holes for mounting the corresponding nozzle tubes is arranged at the nozzle cover. Around a pivot hole, the adjustment piece swings so as to drive the plurality of nozzle tubes moving at an angle and different water distribution patterns are provided.

A discharge head (30) of a liquid dispenser (10), comprising a pump device or pressure accumulator, is known for selectively discharging liquid, on the one hand, in the form of an atomized spray jet and, on the other hand, in the form of a non-atomized liquid stream or in the form of individual droplets. The discharge head (30) is provided for fastening to a base unit (20) of the liquid dispenser (10), said base unit comprising a liquid reservoir (22). The discharge head has a housing (32) which is configured for the stationary or linearly movable or linearly and rotatably movable fastening to the base unit (20) of the liquid dispenser (10). The discharge head (30) has a liquid outlet (34) through which liquid may be discharged from the liquid reservoir (22) into a surrounding atmosphere, and a liquid inlet (38) through which liquid may be conducted out of the liquid reservoir (22) to the liquid outlet (34).

It is proposed that the liquid outlet (34) has an outlet channel (36) penetrating the housing. An internal part (50) is arranged inside the outlet channel (36), a spray opening (56) at the end of a spray duct (54) being provided on the front face (52) of said internal part facing in the direction of the surrounding atmosphere. The internal part (50) and the outlet channel (36) are displaceable relative to one another so that in a first relative position a bypass duct (64) is produced between an internal wall of the outlet channel (36) and an outer face of the internal part (50), the flow resistance thereof being lower than that of the spray duct (54), and in a second relative position this bypass duct (64) is at least partially closed so that the flow resistance of the bypass duct (64) is greater than that of the spray duct (54).

A wand with variable flow and a flow lock is provided. The wand comprises a shell, a waterway, a flow module, a flow actuator module, and a flow lock module. The waterway includes a first flow passage and a second flow passage. The flow module is operable to be disposed between the first flow passage and the second flow passage. The flow module includes a flow control mechanism that is operable to move between a first position and a second position. The flow actuator module includes a flow actuation mechanism that is operable to move between a first position and a second position. The flow lock module includes a lock mechanism that is operable to move between a first position and a second position. When the lock mechanism is in the first position, the flow control mechanism is operable to move between the first position and the second position. When the lock mechanism is in the second position, the flow control mechanism is not operable to move between the first position and the second position and is locked in the second position. When the lock mechanism is in the second position, the lock mechanism is operable to move from the second position to the first position by at least one of actuating the flow actuation mechanism and actuating the lock mechanism. When the lock mechanism is moved from the second position to the first position, the flow control mechanism is moved from the second position to the first position.

A fluid switching valve comprising a valve housing, an inlet area, a first outlet and a second outlet out of the valve housing, a first fluid connection, a second fluid connection, a counter pressure chamber, a first valve unit, a second valve unit and a user-operable switching body for switching the valve closure bodies between their closed position and their open position. Here, the counter pressure chamber is fluid-connected through an inlet link duct to the inlet area. The valve units each have a valve closure body, which is movable between a closed position and an open position for the respective fluid connection and is arranged so as to be subjectable to fluid pressure on the one hand via the inlet area and on the other hand via the counter pressure chamber. The switching body is switchable between different operating positions by a switching movement. The counter pressure chamber is fluid-connected through a first blockable outlet link duct to the first outlet, and through a second blockable outlet link duct to the second outlet.

A spray assembly (110) for a spray head (200) which is arranged, in use, to adjust a spray pattern of fluid includes a spray plate (118) with a plurality of holes (132, 134) therethrough, and a control member (116) rotatable relative to the spray plate (118). In use, the orientation of the spray plate (118) is fixed and rotation of the control member (116) causes fluid to be directed to different groups of the plurality of holes (132, 134) through the spray plate (118). The spray assembly (110) further comprises at least one flow control opening (152) provided in a flow control plate (124) driven by rotation of the control member (116). The flow control opening (152) is arranged, in use, to be moved in response to rotation of the control member (116). The flow control plate (124) has teeth (142) on its outer circumference which interlock with teeth (146) on an outer circumference of an idler gear (148). The teeth (146) of the idler gear (148) interlock with teeth (144) on an inner circumference of the control member (116).

A shower head with water stop function and waterway switch function, includes a housing, a switch device and a water stop device; the switch device and the water stop device are disposed in the housing, the switch device has a switch mechanism and a swing mechanism connected together in driving way, the swing mechanism pushes the switch mechanism to switch waterways; the water stop device comprises a valve shaft and a valve spool connected together, and the valve shaft drives the valve spool to move axially in an open position and a close position to open and close the waterway; further comprising a control device, the control device comprises a button and a link mechanism, the central portion of the button is pivoted to the housing, the link mechanism is connected between the valve shaft and the button in driving way.

A fluid control valve includes a body, a first diverter, a second diverter, and a first actuator. The body includes an inlet configured to receive a supply of fluid. The first diverter is movable in a radial direction within the body between a first radial position and a second radial position. The second diverter is movable in a longitudinal direction within the body between a first longitudinal position and a second longitudinal position. The first actuator is operatively coupled to the first diverter and to the second diverter. The first actuator is configured to simultaneously move the first diverter between the first and second radial positions and the second diverter between the first and second longitudinal positions.

The present disclosure provides a shower head assembly which comprises a housing having a water inlet, a shower outlet and a water outlet. Further, the shower head assembly has a conduit for water that is positioned within the housing and arranged such that a flow of water is directed from the water inlet to the shower outlet or to the water outlet. The conduit comprises an actuatable valve transferable between an actuated condition and a de-actuated condition. The shower head assembly is arranged such that, when the actuatable valve is actuated, the water flow is directed to one of the shower outlet and the water outlet, and when the actuatable valve is not actuated, the water flow is directed to the other one of the shower outlet and the water outlet.

A container for fluid products, particularly pharmaceutical, cosmetic, medical products or the like includes an hollow body divided into: a first tank containing a first fluid substance and communicating with a first dispensing hole of the first fluid substance; a second tank containing a second fluid substance and communicating with a second dispensing hole of the second fluid substance; a neck associated with the hollow body and on which are formed the first dispensing hole and the second dispensing hole; a selector element associated with the neck by interposition of rotation means able to rotate the selector element around an axis of rotation, and the selector element includes an outlet channel able to dispense selectively, due to the rotation of the selector element, the first fluid substance or the second fluid substance.

Adjustable arc of coverage spray nozzle assembly for irrigation where the spray is characterized by the water jets which are cyclically deflected at a high frequency such that they break up into fan shaped water droplet patterns in which the fluid distribution and droplet size can be controlled. Jet deflection is accomplished with energy in the pressurized liquid itself. Multiple fluidic oscillating stream nozzle cavities are molded into a circular plate surround and adjustable arcuate length orifice valve so that one or a series of these fluidic discharge nozzles can be selected to have pressurized water to provide a selectable arc of coverage around a single sprinkler nozzle assembly.