The present disclosure a waterway switching valve. A valve body comprises a water inlet, a first water outlet, and a second water outlet. The switching operating member is operatively connected to the switching member. The switching member is sequentially disposed with a first sealing member, a first pressure relief member, a second pressure relief member, and a second sealing member along a moving direction of the switching member. A first pressure generating cavity and a second pressure generating cavity are disposed in the valve body, and a blocking member is disposed in the valve body between the first pressure generating cavity and the second pressure generating cavity. The blocking member comprises a first flow passage and a second flow passage isolated from the first flow passage, and the first flow passage and the second flow passage are respectively in communication with the first water outlet and the second water outlet.

The present disclosure discloses a shower device. The shower device comprises a top shower, a diverting valve core, a switching assembly, a handheld shower, and a pause valve core. The switching assembly is configured to control the diverting valve core to be switched between the normal diverting state and forced diverting state.

The present disclosure discloses a water outlet device and a kitchen faucet. The water outlet device comprises three water outlet passages, a first water outlet portion comprising one or more first water outlet nozzles, a second water outlet portion comprising one or more second water outlet nozzles, and a third water outlet portion. Each of the first water outlet portion and the second water outlet portion respectively has an annular structure. The second water outlet portion is separated from the first water outlet portion in an upper and lower direction. The one or more second water outlet nozzles correspond to the one or more first water outlet nozzles to enable fluid ejected from the one or more second water outlet nozzles to pass through the one or more first water outlet nozzles.

The present invention discloses a water outlet device, which comprises a water outlet body, wherein a water passing device consisting of a connecting seat, an impeller water distribution disc and a main body is arranged in the water outlet body, the impeller water distribution disc is arranged between the connecting seat and the main body, a primary water-passing hole is arranged on the impeller water distribution disc, at least two secondary water-passing holes connected with different water paths are arranged on the main body, a lower stop block in an annular array is arranged on the main body, an upper stop block in an annular array is arranged in the connecting seat, a water inlet capable of driving the impeller water distribution disc is also arranged on the main body, the impeller water distribution disc is also matched and connected with a switching device, the switching device can control the impeller water distribution disc to move upwards or downwards. Through the design of the above structure, the water outlet device can realize the switching of the water path function through the power of water pressure, the realization mode of the traditional switching control is changed, a novel switching structure is provided, the switching force value is reduced, and the comfort degree of the user is improved.

A water outlet device with water stop and flow rate control comprises a body, a water stop assembly, and a flow rate control assembly. The body comprises a water outflow passage. The flow rate control assembly and the water stop assembly are disposed on the body, first ends of the water stop assembly and the flow rate control assembly are respectively disposed in the water outflow passage, and second ends of the water stop assembly and the flow rate control assembly are exposed out of the body to respectively define a water stop operation end and a flow rate control end. The water stop assembly comprises a first shaft that is operatively connected to the water stop operation end. The flow rate control assembly comprises a second shaft that is operatively connected to the flow rate control end.

Embodiments of the invention provide a push valve assembly. The push valve assembly includes a valve piston that is movable within a valve body between a fully opened position and a fully closed position, passing through an intermediate rinsing position, to selectively provide pressurized fluid through flow paths defined by the position of the valve piston.

A T-joint includes a pipe body and a switch. The pipe body includes an inlet opening, a first outlet opening, a second outlet opening and a switch accommodating space communicating with each other. The switch is positioned into the switch accommodating space of the pipe body, and includes a pressed member and an outlet-selecting member. The pressed member and the outlet-selecting member are connected to each other. By pressing either a first pressed portion or a second pressed portion of the pressed member, the isolating member of the switch could be positioned to lead the inlet opening to communicate with a corresponding one of the first outlet opening and the second outlet opening.

A button structure of a pull-out spray head includes a main body, an operating assembly, and two switching assemblies. The two switching assembles are disposed on the main body and configured to switch spray modes of the pull-out spray head. The two switching assembles are linked with the operating assembly. A return structure is provided for the operating assembly to drive the switching assemblies to counter the water pressure and to be returned in place, so that the spray modes of the pull-out spray head can be switched in place to ensure water discharge of the pull-out spray head so as to improve the user experience.

The present invention relates to a spray of microjets emanating at an inclined angle from nozzles comprised in a substantially planar membrane layer. A spray nozzle unit for spraying a plurality of fluidic microjets from a pressurized liquid comprises a substantially planar (semiconductor) support having an upstream surface and a downstream surface, and a spray membrane layer arranged on the downstream surface of the support. The spray membrane layer comprises a plurality of nozzle orifices each configured for spraying a fluidic microjet in a Rayleigh regime. Thee support defines a cavity extending from the upstream surface to the spray membrane layer. The cavity is in fluid communication with each one of the nozzle orifices for supplying the pressurized liquid to the nozzle orifices. A position of the nozzle orifices, seen along a direction perpendicular to the downstream surface, is offset in respect of a centre of the cavity. At least two of the nozzle orifices exhibit a different offset in respect of the centre of the cavity.

The present disclosure provides a flow switch for a hand shower, including an inlet assembly connected to an inlet end of a switching assembly and an outlet assembly connected to an outlet end of the switching assembly. The switching assembly includes a diverter member, a gearing member, a first switching assembly and a second switching assembly. The diverter member has a first installing groove and a second installing groove, wherein each of the first installing groove and the second installing groove has one inlet opening and two outlet openings. The first switching assembly is operated to open or close the two outlet openings of the first installing groove. The second switching assembly is operated to open or close the two outlet openings of the second installing groove. The gearing member could drive the first switching assembly and the second switching assembly to be continuously operated with each other.