An improved showerhead assembly is provided for use with handheld showerheads. The handheld showerhead includes an elongate handle and a showerhead face including one or more nozzles for spraying water. In addition, the showerhead assembly includes a hollow mount for affixing to the male threaded pipe found in a shower stall. The mount includes a “C” shaped receptacle for holding the handheld shower assembly, an inlet for receiving water, as well as an outlet for expelling water to a flexible hose, which in turn is connected to the handheld showerhead. In addition, the mount includes supplemental spray assemblies which are affixed to the left and right sides of the “C” shaped receptacle and which can be rotated so as to expel water through different spray nozzle configurations.

A multi-mode fluid nozzle includes a generally-cylindrical mixing chamber with a stream mode fluid inlet connected to one side of the chamber, a fluid outlet connected to the opposite side of the chamber and a plurality of mist mode fluid inlets connected to the periphery of the chamber. The discharge pattern of the multi-mode fluid nozzle is dependent upon the inlets from which fluid enters the mixing chamber such that when the fluid enters the mixing chamber through the stream mode fluid inlet, the fluid exits the fluid outlet in a stream flow discharge pattern, when the fluid enters the mixing chamber through the mist mode fluid inlets, the fluid exits the fluid outlet in a mist flow discharge pattern and when the fluid enters the mixing chamber through the stream mode and the mist mode fluid inlets, the fluid exits the fluid outlet in a droplet flow discharge pattern.

A shower system includes a showerhead, which includes a first diverter that is configured to deliver water to a plurality of showerhead outlets. The first diverter is actuatable to change a showerhead water discharge mode of the plurality of showerhead outlets. A diverter actuator is actuatable to actuate the first diverter and thereby change the showerhead water discharge mode of the plurality of showerhead outlets. The shower system further includes a handshower, which includes a second diverter that is configured to deliver water to a plurality of handshower outlets. The second diverter is actuatable to change a handshower water discharge mode of the plurality of handshower outlets. The shower system further includes a user interface that is configured to be actuated by a user to selectively and independently (1) deliver water from the handshower to the diverter actuator to actuate the diverter actuator, and (2) actuate the second diverter.

The present disclosure discloses a shower device. The shower device comprises a top shower, a diverting valve core, a switching assembly, a handheld shower, and a pause valve core. The switching assembly is configured to control the diverting valve core to be switched between the normal diverting state and forced diverting state.

An improved showerhead assembly is provided for use with handheld showerheads. The handheld showerhead includes an elongate handle and a showerhead face including one or more nozzles for spraying water. In addition, the showerhead assembly includes a hollow mount for affixing to the male threaded pipe found in a shower stall. The mount includes a “C” shaped receptacle for holding the handheld shower assembly, an inlet for receiving water, as well as an outlet for expelling water to a flexible hose, which in turn is connected to the handheld showerhead. In addition, the mount includes supplemental nozzles which can be swiveled to spray water in different directions.

An improved showerhead assembly is provided for use with handheld showerheads. The handheld showerhead includes an elongate handle and a showerhead face including one or more nozzles for spraying water. In addition, the showerhead assembly includes a hollow mount for affixing to the male threaded pipe found in a shower stall. The mount includes a “C” shaped receptacle for holding the handheld shower assembly, an inlet for receiving water, as well as an outlet for expelling water to a flexible hose, which in turn is connected to the handheld showerhead. In addition, the mount includes supplemental spray assemblies which are affixed to the left and right sides of the “C” shaped receptacle and which can be rotated so as to expel water through different spray nozzle configurations.

The present disclosure is related to a showerhead. The showerhead includes a housing defining a fluid inlet and a chamber in fluid communication with the fluid inlet, a rotatable turbine received in the chamber and including an eccentric cam positioned on a downstream side of the turbine, and a shutter positioned on the downstream side of the turbine. The shutter includes a shutter body defining an oval-shaped aperture in which the eccentric cam is received such that the shutter oscillates along a rectilinear path as the turbine rotates.

A multi-function shower head including an upper housing, a lower housing, a base plate, the base plate having at least water passages and direct spray holes there-through for selectively enabling water outflow from the upper housing through the base plate, a sliding ring held by the lower housing against the base plate and having at least a second spray pattern, and at least one actuator to selectively align the second spray pattern in the sliding ring with the water passage in the base plate and to adjust from a first spray pattern to the second spray pattern. The base plate and the sliding ring are arranged and disposed with an operating mechanism to automatically adjust the water flow from the second spray pattern to the first spray pattern upon interrupting water flow through, and pressure to the base plate.

A multi-mode fluid nozzle includes a generally-cylindrical mixing chamber with a stream mode fluid inlet connected to one side of the chamber, a fluid outlet connected to the opposite side of the chamber and a mist mode fluid inlet connected to the periphery of the chamber. The discharge pattern of the multi-mode fluid nozzle is dependent upon the inlets from which fluid enters the mixing chamber such that when the fluid enters the mixing chamber through the stream mode fluid inlet, the fluid exits the fluid outlet in a stream flow discharge pattern, when the fluid enters the mixing chamber through the mist mode fluid inlet, the fluid exits the fluid outlet in a mist flow discharge pattern and when the fluid enters the mixing chamber through the stream mode and the mist mode fluid inlet, the fluid exits the fluid outlet in a droplet flow discharge pattern.