A shower assembly includes an inlet port, a reservoir, and a plurality of drop outlets. The inlet is for receiving water from a water source. The reservoir receives water from the inlet port and is not pressurized by a line pressure of the water source. Each of the drop outlet ports is configured, such that water passes from the reservoir, through the plurality of drop outlet ports, forms a drop at each drop outlet port, and falls from each drop outlet port only as discrete drops of water.

A covering is provided to cover an opening in a surface through which a tubular member extends. The covering includes a base of a predetermined thickness and which is larger in diameter than the tubular member. The base defines an aperture which coincides with a central axis of the base. The base has a medial portion which tapers such that an outer diameter of the medial portion exceeds an inner diameter of the medial portion adjacent to the aperture. The aperture coincides with a central axis of the medial portion. A ring is disposed between the inner diameter of the medial portion and the aperture. A plurality of teeth are arranged circumferentially around the ring away from the medial portion, are spaced from each other and project inward from the medial portion, and are structured to grip the tubular member so as to secure the tubular member in place.

A bath spout cover having a body structure, which has an upper portion having two sides extending therefrom. The body structure may also have a front portion. A soap receptacle may be disposed in the body structure. There may also be at least one strap connecting an inner side of the two sides of the body structure.

A shower assembly includes a first outlet, a second outlet, a first inlet, a stopper, and an actuator assembly. The first inlet is configured to provide water to the shower assembly from a water supply. The stopper is movable between a first stopper position and a second stopper position. When the stopper is in the first stopper position, water exits the shower assembly through the first outlet and is prevented from exiting the shower assembly through the second outlet. When the stopper is in the second stopper position, water is permitted to exit the shower assembly through the second outlet. The actuator assembly is configured to move the stopper between the first stopper position and the second stopper position.

A shower assembly includes a first outlet, a second outlet, a first inlet, a stopper, and an actuator assembly. The first inlet is configured to provide water to the shower assembly from a water supply. The stopper is movable between a first stopper position and a second stopper position. When the stopper is in the first stopper position, water exits the shower assembly through the first outlet and is prevented from exiting the shower assembly through the second outlet. When the stopper is in the second stopper position, water is permitted to exit the shower assembly through the second outlet. The actuator assembly is configured to move the stopper between the first stopper position and the second stopper position.

Provided is a water conveyance implement that can have an excellent outer appearance, without molding a cover portion.

A water conveyance implement includes a main body portion in which a water passage for hot/cold water is formed. Pressure higher than supply pressure of the hot/cold water to the water passage during flow acts on the water passage, the main body portion is formed by engineering plastic, and a plated portion is formed on an outer surface of the main body portion itself.

Provided is a water conveyance implement that can have an excellent outer appearance, without molding a cover portion.

A water conveyance implement includes a main body portion in which a water passage for hot/cold water is formed. Pressure higher than supply pressure of the hot/cold water to the water passage during flow acts on the water passage, the main body portion is formed by engineering plastic, and a plated portion is formed on an outer surface of the main body portion itself.

A universal rough-in valve (20) includes a valve chamber (34) configured to receive a valve manifold (72). The universal rough-in valve includes a first valve inlet (22) configured to provide a pathway for fluid from a first supply line to the valve chamber and a second valve inlet (24) configured to provide a pathway for fluid from a second supply line to the valve chamber. The universal rough-in valve includes a first valve outlet (29) configured to provide a pathway for fluid from the valve chamber to a first outlet line, and a valve manifold (72) coupled to the valve chamber.

A shower assembly includes an inlet port, a reservoir, and a plurality of drop outlet ports. The inlet port receives water from a water source at an inlet flow rate. The reservoir receives water from the inlet port, and is not pressurized by a line pressure of the water source even when the reservoir receives the water at a maximum inlet flow rate of up to 2.5 gallons per minute. Each of the plurality of drop outlet ports is configured such that water passes from the reservoir through the plurality of drop outlet ports, forms a drop at each drop outlet port, and falls from each drop outlet port by gravity only as discrete drops of water. A total flow capacity of the plurality of drop outlet ports is greater than or equal to the maximum inlet flow rate.

A shower assembly includes an inlet port, a reservoir, and a plurality of drop outlet ports. The inlet port receives water from a water source at an inlet flow rate. The reservoir receives water from the inlet port, and is not pressurized by a line pressure of the water source even when the reservoir receives the water at a maximum inlet flow rate of up to 2.5 gallons per minute. Each of the plurality of drop outlet ports is configured such that water passes from the reservoir through the plurality of drop outlet ports, forms a drop at each drop outlet port, and falls from each drop outlet port by gravity only as discrete drops of water. A total flow capacity of the plurality of drop outlet ports is greater than or equal to the maximum inlet flow rate.