A multi-mode fluid nozzle includes a generally-cylindrical mixing chamber with a stream mode fluid inlet connected to one side of the chamber, a fluid outlet connected to the opposite side of the chamber and a mist mode fluid inlet connected to the periphery of the chamber. The discharge pattern of the multi-mode fluid nozzle is dependent upon the inlets from which fluid enters the mixing chamber such that when the fluid enters the mixing chamber through the stream mode fluid inlet, the fluid exits the fluid outlet in a stream flow discharge pattern, when the fluid enters the mixing chamber through the mist mode fluid inlet, the fluid exits the fluid outlet in a mist flow discharge pattern and when the fluid enters the mixing chamber through the stream mode and the mist mode fluid inlet, the fluid exits the fluid outlet in a droplet flow discharge pattern.

A spray gun shower head includes a shower body, a switching body and a reset assembly. The shower body has a water intake path and at least one first and second water outflow paths. The switching body is movable between first and second switch positions and configured to switch the water intake path to be communicated with the first or second water outflow path. The reset assembly includes at least one reset member and a push block. The second water outflow path is hidden in the shower body through a cover. The cover is pushed against by an opening structure to be opened. The reset member is disposed on the shower body, and one end thereof cooperates with the push block. The push block is disposed on the switching body and rotates toward the second switch position along with the switching body to press against the reset member.

A multi-mode fluid nozzle includes a generally-cylindrical mixing chamber with a stream mode fluid inlet connected to one side of the chamber, a fluid outlet connected to the opposite side of the chamber and a plurality of mist mode fluid inlets connected to the periphery of the chamber. The discharge pattern of the multi-mode fluid nozzle is dependent upon the inlets from which fluid enters the mixing chamber such that when the fluid enters the mixing chamber through the stream mode fluid inlet, the fluid exits the fluid outlet in a stream flow discharge pattern, when the fluid enters the mixing chamber through the mist mode fluid inlets, the fluid exits the fluid outlet in a mist flow discharge pattern and when the fluid enters the mixing chamber through the stream mode and the mist mode fluid inlets, the fluid exits the fluid outlet in a droplet flow discharge pattern.

The present disclosure provides a shower device. A first shower comprises a first water outlet passage. The joint comprises a water inlet cavity and a water outlet cavity. A second shower fixed portion comprises a first water passage, a second water passage, a first water hole, and a second water hole. The rotation switching portion is rotatably connected to the second shower fixed portion and comprises water dividing holes and a second water outlet passage. A flow gap is defined between the second shower fixed portion and the rotation switching portion. The rotation switching portion rotates to enable the first water hole to be in communication with at least one of the at least two water dividing holes. The connecting pipe comprises an outer flow passage and an inner flow passage disposed in the outer flow passage.

A water outlet device for different water sprays from a same nozzle comprises a water outlet portion, and a control mechanism, the water outlet portion comprises a water outlet nozzle, the water outlet nozzle comprises a water outlet, the water outlet nozzle further comprises at least two water inlets, flow directions of the at least two water inlets are not parallel to a flow direction of the water outlet, the control mechanism is connected to the at least two water inlets to control a water inlet condition of each of the at least two water inlets, the water inlet condition comprises at least one of a flow volume or whether the water is flowing or not flowing, and the control mechanism controls the water inlet condition of each of the at least two water inlets to enable the water outlet nozzle to discharge the different water sprays.

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 shower mat is configured to carry an auxiliary shower spray conduit to deliver a spray vertically upwards to allow the user to clean their lower body and extremities. The mat may include a plurality of layers with the auxiliary shower spray conduit carried between the plurality of layers. Tubing interconnects the auxiliary spray hose to a diverter valve that is, in turn, connected to a stem of a shower enclosure. The auxiliary shower spray conduit is oriented in a serpentine shape and has a plurality of a spray hose that are aligned with a corresponding plurality of jet apertures defined through a surface of an upper mat.

A shower includes a main body and a control member. The main body includes an inner wall composed an accommodating space, an inlet opening, multiple outlet openings, an inlet bore and multiple outlet bores; the inlet opening communicates with the inlet bore through an inlet channel in the main body; each of the outlet openings communicates with a corresponding one of the outlet bores through an individual outlet channel; the control member is positioned in the accommodating space, wherein the control member could be operated to select one of the outlet opening being able to outlet.

In a sanitary outlet unit (1), a main body (2) and a handle (5), which is accessible from outside, are arranged so as to be movable relative to each other between a coupled position and an uncoupled position, so that in the coupled position the main body (2) can be screwed to a fitting outlet (3) by the handle (5).

A spray assembly (110) for a spray head (200) which is arranged, in use, to adjust a spray pattern of fluid includes a spray plate (118) with a plurality of holes (132, 134) therethrough, and a control member (116) rotatable relative to the spray plate (118). In use, the orientation of the spray plate (118) is fixed and rotation of the control member (116) causes fluid to be directed to different groups of the plurality of holes (132, 134) through the spray plate (118). The spray assembly (110) further comprises at least one flow control opening (152) provided in a flow control plate (124) driven by rotation of the control member (116). The flow control opening (152) is arranged, in use, to be moved in response to rotation of the control member (116). The flow control plate (124) has teeth (142) on its outer circumference which interlock with teeth (146) on an outer circumference of an idler gear (148). The teeth (146) of the idler gear (148) interlock with teeth (144) on an inner circumference of the control member (116).