A water output device is adapted to be connected to an inlet tube and includes an outlet tube and an outlet shelf having an upper outlet surface. The outlet tube passes through the outlet shelf and extends upward from the upper outlet surface and communicates with the inlet tube. A side wall of the outlet tube has a first outlet opening. The upper outlet surface has a guiding recess having an open side formed on a side edge of the upper outlet surface, so that a water flowing from the first outlet opening is guided by the guiding recess to flow out through the open side. The outlet shelf could be placed bath supplies and provide users with a special visual experience, and water could be outputted from the first outlet opening beyond the outlet shelf and guided by the guiding recess to flow out through the open side.

A water output device is adapted to be connected to an inlet tube and includes an outlet tube and an outlet shelf having an upper outlet surface. The outlet tube passes through the outlet shelf and extends upward from the upper outlet surface and communicates with the inlet tube. A side wall of the outlet tube has a first outlet opening. The upper outlet surface has a guiding recess having an open side formed on a side edge of the upper outlet surface, so that a water flowing from the first outlet opening is guided by the guiding recess to flow out through the open side. The outlet shelf could be placed bath supplies and provide users with a special visual experience, and water could be outputted from the first outlet opening beyond the outlet shelf and guided by the guiding recess to flow out through the open side.

A three-way flow dividing valve structure is provided, including a valve body, a water divider, a spring, and a switch handle. A water intake communicating with the water inlet is formed on the side wall of the flow dividing chamber. A first and second outlet holes respectively communicating with the water outlets are formed at the bottom of the flow dividing chamber. The water divider includes a water dividing shaft and a water dividing dish; the bottom of the water dividing shaft is connected to the water dividing dish in the flow dividing chamber. The water dividing dish has a water dividing hole movably communicating with the outlet holes. The top of the water dividing shaft protrudes from the valve body and is connected to the switch handle. Two ends of the spring abut against the water dividing dish and the bonnet respectively. The present disclosure can be operated effortlessly.

A distributor pipe (1, 12, 12) for a distributor pipeline to distribute water to various places in a building structure. The distributor pipe has a through bore (15, 23) and two or more connections (3, 4, 24, 25) for connection of metal or plastic lubes or a valve (28), on the upper and/or the lower side of the 5 distributor pipe. The distributor pipe (1, 12, 22) connections (3, 4, 24, 25) are arranged in fluid communication with the through bore (15, 23) of the distributor pipe (1, 12, 22) on both sides of the distributor pipe through bore (15, 23) so that the centre axis of the bore of the connections (21) is situated outside of the through bore (15, 23). The connections (3, 4, 24, 25) on both sides of the 10 through bore are displaced in the longitudinal direction relative to each other.

The present invention discloses a shower apparatus, which comprises an upper body, a lower body and a mixing valve, the upper body and lower body are interconnected and fixed, the upper body is provided with a capacious space, the mixing valve is placed within the capacious space; the lower body comprises a cold water inlet channel, a hot water inlet channel and a mixing water outlet, the upper body comprises a cold water crossing channel, a hot water crossing channel and a mixing water crossing channel, the upper body comprises a cold water crossing channel, a hot water crossing channel and a mixing water crossing, channel, the cold inlet channel, the hot inlet channel and the mixed water outlet are hermetically connected to the cold water crossing channel, the hot water crossing channel and the mixed water crossing channel, respectively. The shower apparatus adopts modular split design, which takes the lower body as the base platform, so that the upper body can be replaced with different functions, with simple structure and low cost, and satisfy the matching of platform functions at the same time; in addition, the shower apparatus integrates the automatic stop valve group into the upper body to realize modular assembly, with simple structure and convenient structure.

Disclosed herein is a two-layer vanity unit. The two-layer vanity unit includes: a cabinet; an upper vanity unit disposed on a top of the cabinet and exposed to the outside; a lower vanity unit disposed inside the cabinet so that it is selectively put into the cabinet when not in use and withdrawn from the cabinet when in use; drain pipes connected to the upper and lower vanity units; and cold and hot water pipes connected to the upper vanity unit. Control is performed to adjust one or more of water supply and water cutoff for the upper or lower vanity unit and an amount and temperature of the available water according to an operation mode of the lever of the faucet provided on the upper or lower vanity unit, thereby controlling a type of supply of available water.

A shower system includes an inlet configured to receive water from a supply conduit and a plurality of spout outlets configured to discharge water from the shower system. A diverter is configured to receive water from the inlet and deliver water to the plurality of spout outlets, and the diverter is actuatable to change a water discharge mode of the plurality of spout outlets. A valve is configured to receive water from the inlet, and the valve is actuatable to a first position and a second position. A diverter actuator is configured to receive water from the valve in the second position. The diverter actuator is actuatable from an unactuated position to an actuated position upon receiving water from the valve, and the diverter actuator thereby actuates the diverter to change the water discharge mode of the plurality of spout outlets.

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.

A side sprayer includes an inactive configuration, a normal active configuration, and a locked active configuration. The side sprayer includes three buttons to allow the user to transition between configurations of the side sprayer.

A three-way flow dividing valve structure is provided, including a valve body, a water divider, a spring, and a switch handle. A water intake communicating with the water inlet is formed on the side wall of the flow dividing chamber. A first and second outlet holes respectively communicating with the water outlets are formed at the bottom of the flow dividing chamber. The water divider includes a water dividing shaft and a water dividing dish; the bottom of the water dividing shaft is connected to the water dividing dish in the flow dividing chamber. The water dividing dish has a water dividing hole movably communicating with the outlet holes. The top of the water dividing shaft protrudes from the valve body and is connected to the switch handle. Two ends of the spring abut against the water dividing dish and the bonnet respectively. The present disclosure can be operated effortlessly.