A fast installation mechanism for a faucet includes a locking inner core, a fixing core, and a base. The locking inner core is a tubular member. An external thread is formed on an outer wall of the locking inner core. An upper end of the locking inner core is fixedly connected to a faucet body. A lower portion of the locking inner core is screwed into the fixing core. The base is sleeved on a lower portion of the fixing core. At least two elastic pieces on the fixing core extend out of at least two windows of the base, respectively. The installation is quick and easy, and the operation is convenient.

A hose bib system includes a PEX plumbing line that may deliver a fluid. An adapter is provided and the adapter may be coupled to a vertical support surface. The adapter penetrates the vertical support surface. The PEX plumbing line is fluidly coupled to the adapter. A hose bib may be fluidly coupled to the adapter. Thus, the PEX plumbing line may deliver the fluid to the hose bib.

A process for providing an overmolded waterway comprising inserting a shaft portion of a sacrificial core into an end of a tube, the shaft portion having a first opening therein, the sacrificial core having a second portion comprising a second opening and a contact surface about the second opening, the second opening in fluid communication with the first opening and the inside of the tube, in a mold cavity inserting a core pin transverse to the tube end, the sacrificial core contact surface engaging a mating surface of the core pin closing the second opening, injection overmolding over a portion of the tube end and core pin forming an overmolded waterway having an outlet portion in fluid communication with the second opening and the inside of the tube, and removing the core pin from the second opening through the outlet portion and removing the overmolded waterway from the mold cavity.

A plumbing component includes a cold water inlet; a hot water inlet; an outlet configured to output cold water, hot water, or a mixture thereof; a flow shut-off mechanism for restricting the flow of water out of the outlet; a first flow control valve for controlling the flow of cold water; and a second flow control valve for controlling the flow of hot water. Each of the flow control valves comprises a valve member and an associated valve seat, each valve member arranged to engage with the associated valve seat to control the flow of water through the flow control valves to the water outlet. One or both of the valve members includes a graduated flow control bead arranged to seal against the associated valve seat to provide a graduated flow transition between a maximum flow state and a minimum flow state of the, or each, control valve.

A flush-mounted group for mixing water for a bathroom or kitchen, comprising: a body comprising a valve, designed to be installed in a seat having a given depth with respect a finished surface, a fastening means for fixing the body to the seat, which is adjustable on the body to set the depth at which the body is inset inside the seat, a plate mountable on the finished surface to enclose the body inside the seat and which is provided with an opening for accessing the body, a control member for operating the valve, which is connected to the valve through the opening of the plate. The mixing group comprises a coupling means for connecting together the valve and the control member, which can be adjusted so as to vary a distance between the control member and the valve and ensure correct positioning of the control member inside the opening.

A dialysis service box for centralized control and plumbing arrangement of a dialysis machine is disclosed. The dialysis service box includes a plumbing arrangement with a warm water inlet and a cold water inlet in fluid flow communication with a temperature mixing component. The thermostatic mixing component mixes the cold water and the warm water to produce mixed water maintained at a predetermined temperature between the temperature of the cold water and the temperature of the warm water. The dialysis service box can be universally installed to operate, control and adjust any dialysis machine that requires supply connection, waste connection, backflow preventer, thermostatic mixing component, a trap primer, or any combination of the foregoing.

A plumbing finish panel assembly, for connecting a water supply line in a wall to fixture supply lines, comprises a mounting panel having a supply line opening formed therethrough and a finish ring for presenting a clean finished appearance to the assembly. A supply line connector assembly is securable to the mounting panel through the supply line opening and enables selective orientation of a tailpiece for connection to the supply line. An outlet end of the supply line connector assembly provides a threaded coupling to which a valve or hose may be coupled. The panel assembly may be provided in plate or box configuration.

A trim system for a fluid control valve that includes a first stem driver coupled to a first actuator of the valve, a cage coupled to the first stem driver, a first handle coupled to the cage, a second stem driver coupled to a second actuator of the valve, and a second handle coupled to the second stem driver. The first stem driver and the cage are configured to compensate for axial and angular misalignment between the first handle and the first actuator, and the second stem driver and the second handle are configured to compensate for axial and angular misalignment between the second handle and the second actuator. Rotation of the first handle is configured to rotate the first actuator through the first stem driver and the cage, and rotation of the second handle is configured to rotate the second actuator through the second stem driver.

In accordance with an embodiment, a method for diverting a flow of a fluid is provided. The fluid is introduced into a conduit that has a central portion, an elbow spout, and a diverter. The spout is coupled to the conduit and the diverter is coupled to the spout. The inverter can be configured in a first position or a second position. In the first position, the diverter enables the fluid to flow through the spout and in the second position, the diverter inhibits fluid from flowing through the spout.

A testing cap for a valve body includes a base configured to releasably attach to the valve body and to cover an opening in the valve body. The opening is configured to receive a valve cartridge and the base covers the opening in place of the valve cartridge. The testing cap includes a structure extending from the base. The structure is configured to be oriented relative to the valve body in a first orientation and a second orientation. The structure allows fluid to enter the valve body through an inlet port in the valve body and exit the valve body through an outlet port in the valve body when the structure is oriented in the first orientation. The structure covers at least one of the inlet port and the outlet port when the structure is oriented in the second orientation, thereby preventing fluid flow through the valve body.