A greasing system comprising a lubricant; pressurized air; a spray nozzle assembly in communication with the lubricant and the pressurized air having a spray nozzle manifold that further includes a valve bar assembly having a lubricant reservoir in communication with the lubricant; a plurality of proportional solenoid valves in communication with the lubricant reservoir; a plurality of lubricant passages in communication with the proportional solenoid valves; a plurality air passages in communication with the source of pressurized air; and a plurality of valves positioned in-line between the pressurized air and each air passage; and a nozzle bar assembly detachably connected to the valve bar assembly that further includes lubricant passages in communication with the lubricant passages in the valve bar assembly; air passages in communication with the air passages in the valve bar assembly; chambers in communication with corresponding lubricant passages in the nozzle bar assembly and corresponding air passages in the nozzle bar assembly, wherein lubricant is deposited in each chamber through the lubricant passage; and a spray nozzle in communication with each chamber, wherein the pressurized air is used to propel droplets of lubricant from the nozzle.

A sanitary insert unit (1) having an elastically deformable valve body (8) which can be switched between a first switching state and a second switching state and having a first flow path (3) and a second flow path (4). The second flow path (4) is blocked in the first switching state and open in the second switching state, and the first flow path (3) is open in the first switching state and in the second switching state.

A multi-function water output device includes: a shell, a water ejection head and a core body connected to each other in the shell. On the core body is provided with a first valve hole, a second valve hole, and a third valve hole disposed in sequence along a water flow direction from rear to front. Rear end of the core body is provided with an outer interface, while inside the outer interface is provided with an inner interface. An inner cavity of the inner interface is in communication with a first water input port at bottom of a first valve hole. An upper portion of the first valve hole is provided with first water output port. In the first valve hole is provided with a first valve plug, controlling connection and disconnection of the first water input port and the first water output port.

An inductive shower head, comprising an outer shell which is provided with a water inlet and multiple groups of water outlet holes; a third water outlet cavity and a first water outlet cavity which are independent of each other inside the outer shell can be communicated with the corresponding groups of the water outlet holes respectively, a third water inlet cavity is arranged between the first water inlet cavity and the third water outlet cavity; the first water inlet cavity is communicated with the third water inlet cavity; the position where the third water inlet cavity is communicated with the third water outlet cavity is correspondingly provided with a control assembly which uses an electromagnet to control the two cavities to communicate with or block from each other; the shower head also comprises a first inductor and a power supply unit which is used for supplying power to the electromagnet.

A mini vertical-and-horizontal engine structure, comprising: a rear water channel, connected to an outside pipeline; a first engine, disposed vertically in the rear water channel to switch between water routes; a second engine, disposed horizontally in the rear water channel; a front water channel, connected fixedly to one end of the rear water channel; a push button, disposed on the front water channel, to control the first engine and the second engine; and a connection rod, with its one end connected fixedly to the push button, and with its other end connected fixedly to the first engine and the second engine. The engine structure is novel in design, compact in structure, a plurality of engines are arranged to dispose vertically or horizontally to reduce space it occupies. A push button is used to control the engines to switch between a plurality of water channels.

A single pushbutton device includes a housing, a bushing, a water channel assembly, and a rotary assembly. The bushing and the rotary assembly are mounted inside of the housing, the water channel assembly is mounted around of the rotary assembly, and a button is through a hole of the housing. When push down the button, a rotary sleeve of the rotary assembly is rotated, a bump of the rotary sleeve is rotated along multiple noses of the multiple abutting inserts of the water channel assembly to sequentially press down the abutting inserts, further open different waterways, and output water with different spray or bubbling forms. Given the foregoing structure, the single pushbutton device is compact, facilitates quick and convenient operation, and requires less force exerted thereon for operation.

A side spraying shower head includes an inlet waterway; a cover unit with a first and second water cavity; a water diversion body covering the cover unit, the water diversion body having a first inlet hole connected to the first water cavity and a second inlet hole connected to the second water cavity; a fixation base attached to the water diversion body, the fixation base including a first connection waterway and a second connection; a switch shaft, laterally movable inside the fixation base, the central portion of the switch shaft including a seal portion disposed between the first and second connection waterway; a press mechanism attached to the cover unit to push the switch shaft to close the second connection waterway; an elastic element abuts against the switch shaft and the fixation base to push the switch shaft to close the first connection waterway.

A device for attaching a nozzle holder having a body and a casing to a supply line, the supply line having a receiving support in contact with the supply line; a receiving support hinge for pivoting a latch about a first pivot axis parallel to the direction of the supply line; a receiving support pin for locking the latch, the pin having a deformable clamp collar; and wherein the device being such that the clamp collar of the pin having an eccentric configured to cover the latch.

Each of the valve device and the shower device includes: a valve/shower device main body; a link lever pivotally held in the valve/shower device main body; a weight provided on the link lever; and a ball valve provided between the weight and a pivot axis of the link lever. When the valve/shower device main body is manually caused to move by shaking, swinging, turning, tilting, tapping, or like operation, a kinetic energy imposed on the weight causes the link lever to make a rotational movement relative to the valve/shower device main body, and then the rotational movement of the link lever displaces the ball valve to open or close a valve hole. The valve device and the shower device can significantly facilitate the valve-opening/closing operations, and do not require a special external member for hand- or finger-operation such as a button, a handle or a switch.

A shower head includes a fixation portion and a switch mechanism. The fixation portion has two diversion waterways that connect to an inlet waterway. The switch mechanism rotates the two diversion waterways. The first diversion waterway has a mutation cavity connected to a diversion hole. The mutation cavity has a flow straightener that water from the diversion hole collides in the flow straightener. The second diversion waterway has a first section and a second section with a larger outlet. A suction hole is disposed between the mutation cavity and the second section. When water flows out of the first diversion waterway, air enters the mutation cavity from the second diversion waterway through the suction hole, bubble water flows out of the first diversion waterway; when water flows out of the second diversion waterway, air enters the second section from the first diversion waterway through the suction hole.