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.

A water outlet device includes a ball component. The ball component comprises a ball rod and a ball. Two water ports and a water channel located between the two water ports are sequentially formed in the ball rod. An angle is formed between the directions of the two water ports. The ball is arranged on at least one water port. The water channel penetrates through the ball. The two water ports having an angle formed between water flow directions thereof are formed in the water channel of the ball rod, so that the water outlet direction of the water outlet device can be adjusted to be upward, and the water outlet angle can be adjusted to some extent.

The present invention relates to a sink tap structure moving up and down through a cooperative operation with a shelf moving up and down, including: shelf frames coupled to a screw bar in the form of male/female screws to move up and down along rails attached to the inner surface of a cupboard by rotation of the screw bar, the screw bar being rotatably coupled to a servo motor disposed inside a cupboard frame; a first stage shelf located close to a user when pulls by means of sliding members slidingly coupled to casing members disposed on the lower portions of the shelf frames and returned to the original position thereof when pushes by means of the sliding members; and a tap coupled to an elevating bar in such a manner as to move up and down by means of the up and down movements of the elevating bar.

A water delivery device includes a plurality of magnetic joints each including a plurality of magnetic members, and a plurality of conduit sections each rotatably coupled to each other by a magnetic joint of the plurality of magnetic joints. The plurality of conduit sections collectively define a spout of the water delivery device. The spout extends from a first portion configured to be coupled to a mounting surface to a second portion configured to discharge a fluid. The water delivery device is configured such that magnetic joints located closer to the first portion include a greater number of magnetic members than magnetic joints located closer to the second portion.

A sink system includes a sink basin and a discharge conduit coupled to the sink basin, which is positioned to expel fluid into the sink basin via an outlet thereof. The flow of fluid through the discharge conduit may be activated via a motion sensor or switch coupled directly to the basin or a spacer ring positioned between the basin and a countertop. Controls for adjusting the temperature and/or flow rate of fluid through the discharge conduit may also be coupled to the basin or a spacer ring positioned between the basin and the countertop, or alternatively, to a surface of the countertop. Methods of making and using sink systems are also provided.

A faucet (102) is provided having a faucet body (106) and a faucet head (108), wherein the faucet head (108) comprises a first outlet (110, 112) and a second outlet (110, 112). The faucet is configured such that manual rotation of the faucet head (108) causes the faucet to toggle between a first mode in which fluid is dispensed from the first outlet and a second mode in which fluid is dispensed from the second outlet. Manual rotation of the faucet head may cause one or more valves to be physically/mechanically and/or electronically controlled to control flow of fluid to toggle between the different modes. One fluid outlet may be configured to dispense a first kind of fluid while the other fluid outlet may be configured to dispense a second kind of fluid.

A faucet assembly including a spout arm supported by a spout hub and configured to rotate about a vertical axis. In an illustrative embodiment, the faucet assembly is formed through additive manufacturing.

A movable holder includes a showerhead seat assembly; a mounting frame having a first receiving groove, the showerhead seat assembly being rotatably mounted on the mounting frame, a mating boss being provided on the mounting frame, and a locking member being mounted on the mating boss; a transmission seat movably mounted in the first receiving groove, a limiting structure being provided between the mounting frame and the transmission seat; and a damping member sleeved with the transmission seat by an interference fit and in a relatively rotatable manner and rotated synchronously with the showerhead seat assembly, an elastic member being pressed between the damping member and the showerhead seat assembly. The transmission seat is configured to drive, along with the rotation of the damping member, the locking member to move between a locked position and an unlocked position. A shower assembly includes the movable holder.

A faucet hose adapter includes an elongated tube having a first end opposite a second end defining a channel therebetween. The first end is dimensioned to secure over a faucet such that fluid dispensed from the faucet exits through the second end. An aperture is disposed through the elongated tube adjacent to the first end, wherein the aperture can receive a faucet valve handle therethrough.

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.