A free standing bath filler that includes a body having an inlet configured to receive hot and cold water, a first outlet, and a second outlet; a first valve located within the body and configured to control at least one of a flow rate or a temperature of water from the inlet to the first outlet; a second valve located within the body and configured to control at least one of a flow rate or a temperature of water from the inlet to the second outlet; a first controller configured to control an operation of the first valve; and a second controller configured to control an operation of the second valve, wherein the each controller is operable independently of the other controller.

A retractable hose structure of a pull-out faucet contains: a body, a supply pipe, a flexible hose, and a spring. The body includes a locking portion. The supply pipe is hollow and includes a defining portion, an opening, and a screw element. The flexible hose is slidably received in the supply pipe and includes a slide portion and a water supply head. The water supply head is locked with the opening and is pulled outward with the flexible hose. The spring is accommodated in the supply pipe and is fitted on the flexible hose, and at least one non-metallic insulation layer is defined between the spring and the supply pipe. When pulling the water supply head outward, the spring is actuated by the flexible hose to retract. When releasing the water supply head, the spring drives the water supply head to move back to an original position.

A faucet that includes a base; a riser having a first end, which couples to the base, and a distal second end; a first pivot member extending between first and second ends, wherein the first pivot member operatively couples to the second end of the riser at a first pivot axis located between the first and second ends of the first pivot member; a spout fluidly connected to the base through the riser and the first pivot member, the spout comprising an inlet end, which couples to the second end of the first pivot member such that the spout is rotatable relative to the riser through the first pivot member; and a biasing member operatively coupled to the first end of the first pivot member such that the biasing member creates a force, which biases and/or dampens relative rotation between the spout and the riser about the first pivot axis.

Disclosed is a bearing configured to couple a faucet spout to a faucet body. The bearing includes a plurality of fingers extending parallel to a central axis of the bearing. The plurality of fingers is configured to engage with the faucet spout at an intermediate position between a first end of the bearing and a second end of the bearing. The fingers are configured to exert an outward pressure to the faucet spout. The fingers are also configured to compress in a substantially axial direction.

Disclosed is a high flow valve seat for a water control valve, including a main body, wherein the main body has one end and a circumferential part. The main body forms a waterway and several flow channels which straight extend from the end into the main body respectively. The main body forms several through holes connected to the flow channels respectively. The flow channel is formed of a first wall surface, a second wall surface and a third wall surface. The first wall surface is laterally adjacent to the circumferential part. The second wall surface and the third wall surface abut on both sides of the first wall surface respectively, and the second wall surface and the third wall surface extend away from the circumferential part respectively, so as to enlarge the cross-section area of the flow channel and to increase the flow of water to the valve core structure.

The present disclosure relates to multifunctional smart faucets able to dispense a plurality of cleaning and personal hygiene liquids. In accordance with aspects and embodiments, a multifunctional smart faucet system is provided comprising a faucet that, in addition to having traditionally plumbed hot and cold water lines, includes a plurality of reservoirs, each of the plurality of reservoirs having a reservoir channel extending from the reservoir through the body of the faucet. The faucet systems disclosed includes a manual push button able to dispense fluids in the reservoirs, as well automated systems for dispensing fluids on intervals and according to pre-determined programming. In some embodiments, the disclosed smart faucet systems are controllable by smart devices with the aid of a dedicated application.

A faucet having a base that is mountable to a support, a spout moveably coupled to the base and having an outlet for dispensing water, and a valve that controls a flow of water to an outlet, where the valve is opened in response to the spout being moved relative to the base to a first position, and the valve is closed in response to the spout being moved relative to the base from the first position toward a second position.

Fluid-dispensing systems and methods relating thereto are described. A method of dispensing fluid includes: (i) receiving, from a temperature encoder, a temperature signal; (ii) receiving, from a flow rate encoder, a flow rate signal; (iii) providing, based on the temperature signal and the flow rate signal, a first amount of power required by a first motor; (iv) providing, based on the temperature signal and the flow rate signal, a second amount of power required by a second motor; (v) opening, based on the first amount of power, the first valve by a first amount of valve opening; (vi) opening, based on the second amount of power, the second valve by a second amount of valve opening; and (vii) facilitating admixing of a first fluid flow at a first fluid flow rate, received from the first valve, and a second fluid flow at a second fluid flow rate, received from the second valve, to create an admixed fluid stream.

A multi-directional touch valve has a valve unit and a press unit. The valve unit has a housing, a main flow channel, and a switching unit. The housing has a shoulder portion being adjacent to an outlet end of the housing. The switching unit is mounted in the housing and selectively blocks the main flow channel. The press unit is connected with the valve unit and has a passing portion, a hanging portion, and an abutting portion. The hanging portion is movably held on the shoulder portion and has an inner edge spaced from an outer surface of the housing and a space formed in a side of the at least one hanging portion facing the passing portion. The press unit can be pressed from any of axial direction, transversal directions, and oblique directions to switch the switching unit.

A self closing tap (102) comprising a cartridge (12) and a tap handle interface is disclosed. The cartridge (12) comprises a piston (122), and a plunger (32). The piston (122) is comprised of a piston head (124), and a piston shaft (126), the piston shaft (126) has a longitudinal axis (A) and is fixed to the piston head (124) at a first end, and the second end of the piston shaft (126) is an engagement end (182). The plunger (32) is movably fixed to a first portion of the piston shaft (126) and adapted to move longitudinally along the first portion of the piston shaft (126). The plunger (32) has a first and second end with the second end of the plunger (32) being closer to the engagement end (182) of the piston shaft than the first end, the tap handle interface comprises a first and second recess (186, 154), the first recess (186) is adapted to receive the engagement end (182) of the piston shaft (126) and prevent rotation of the piston shaft (126) around its longitudinal axis (A), and the second recess (154) is adapted to receive at least the second end (126) of the plunger (32) and to prevent rotation of the plunger (32) around the piston shaft (126).