A hand held shower head configured to deliver a continuous dose of water dispersed treatment from a water disintegratable treatment source, the shower head including: a hollow body having water inlet opening and water outlet, the water outlet defined by a perforated plate, and a mesh formation disposed within the hollow body between the water inlet opening and the perforated plate, wherein the water inlet opening, hollow body and perforated plate are configured to create in use a pressurised turbulent water flow within the hollow body prior to exiting through the perforated plate, whereby a water disintegratable tablet treatment source introduced into the hollow body prior to use, is then agitated by the turbulent water flow against the mesh in an abrading manner and thereby dispersed into the water flow exiting the perforated plate. A water disintegratable tablet comprising emulsifier, thickening agent, surfactants, oil and rheology modifier is also disclosed.

An apparatus for applying a liquid to a plant growing in soil includes a handheld assembly having a spray configuration for applying a liquid to a plant as a spray at a location above the surface of the soil in which the plant is growing, and a probe configuration for applying a liquid below the surface of the soil proximate to the roots of the plant. The assembly is selectively reconfigurable by a user between the first spray configuration and the second probe configuration.

A showerhead assembly with a plurality of speakers is disclosed. The illustrative showerhead assembly includes a showerhead to exert fluid, a support structure to transport the fluid to the showerhead, and a plurality of speakers to exert sound with a consistent directionality. The showerhead assembly illustratively includes a dome housing having an inner wall and an outer rim, a showerhead to exert fluid, a support structure extending from a center of the housing such that the support structure has a first end attachable to a wall or ceiling and a second end distal from the first end and the support structure transports the fluid to the showerhead, and a plurality of speakers disposed on the support structure such that the speakers are directed toward the inner wall of the housing and the speakers generate and exert sound with a consistent directionality.

A showerhead assembly with a plurality of speakers is disclosed. The illustrative showerhead assembly includes a showerhead to exert fluid, a support structure to transport the fluid to the showerhead, and a plurality of speakers to exert sound with a consistent directionality. The showerhead assembly illustratively includes a dome housing having an inner wall and an outer rim, a showerhead to exert fluid, a support structure extending from a center of the housing such that the support structure has a first end attachable to a wall or ceiling and a second end distal from the first end and the support structure transports the fluid to the showerhead, and a plurality of speakers disposed on the support structure such that the speakers are directed toward the inner wall of the housing and the speakers generate and exert sound with a consistent directionality.

Method for producing a spray wall drilled with a network of holes for the pressurised fluid substance to pass through so as to be sprayed in fine droplets. The method includes the steps of (a) moulding a nozzle having a front wall integrally formed with an assembly wall, the assembly wall surrounding the front wall, the front wall having a curved initial configuration upon removal from the mould; (b) drilling the curved front wall with a network of holes having a defined initial orientation; and (c) deforming the drilled curved front wall into a final spray configuration defining a spray wall, the defined initial orientation of the holes being subsequently modified.

The present invention discloses a microbubble-producing water outlet assembly, which includes a housing, a water inflow component, a water through-flow disc and at least three layers of bubble mesh plates. The microbubble-producing water outlet assembly provided by the present invention has a simple structure, is easy to manufacture and easy to implement, has a low cost, and solves a problem that the water flow strength is too high but the content of microbubbles is too low in existing water outlet assemblies in the prior art.

The disclosure concerns a shower device for creating at least one water jet pattern with a structural assembly, with a nozzle assembly and with a lighting assembly. It is proposed that the structural assembly provides an exit opening for the emergence of the water discharged by the nozzle assembly and has an outer edge region running about the edge of the exit opening, that the exit opening during the shower operation is only partly occupied with emerging water at any given time, that the nozzle assembly is arranged distributed along at least a portion of the edge of the exit opening at the edge region and that the path of the water discharged by the nozzle assembly during the shower operation runs each time from the edge region in the direction of the exit opening and then through the exit opening.

A single-button water passage switching structure includes a water inlet assembly and a water outlet assembly. The water inlet assembly includes a water inlet body, an operating button, a first control assembly, and a second control assembly. The water inlet body has a first mounting chamber and a second mounting chamber. The first mounting chamber and the second mounting chamber each have a water inlet and two water outlets. The first control assembly is configured to realize a pause mode, a first spray mode or the switching of water passages of the second mounting chamber. The second control assembly is configured to realize the switching of water passages of a second spray mode or a third spray mode. The operating button is configured to link the first control assembly and the second control assembly.

A single-button water passage switching structure includes a water inlet assembly and a water outlet assembly. The water inlet assembly includes a water inlet body, an operating button, a first control assembly, and a second control assembly. The water inlet body has a first mounting chamber and a second mounting chamber. The first mounting chamber and the second mounting chamber each have a water inlet and two water outlets. The first control assembly is configured to realize a pause mode, a first spray mode or the switching of water passages of the second mounting chamber. The second control assembly is configured to realize the switching of water passages of a second spray mode or a third spray mode. The operating button is configured to link the first control assembly and the second control assembly.

A shower head water collecting device includes a water collecting hanging component, a temperature sensing element, an assembling component, a solar panel, and a temperature displaying element. The water collecting hanging component is provided for a shower head to be hung thereon and collects the water spraying from the shower head. The temperature sensing element is disposed inside the water collecting hanging component to sense the temperature of water spraying from the shower head. The assembling component is mounted on top of the water collecting hanging component. The solar panel and the temperature displaying element are disposed in the assembling component. The solar panel is electrically connected to the temperature sensing element and the temperature displaying element, wherein the solar panel harvests the light energy from the outside and converts it into electrical energy to supply power to the temperature sensing element and the temperature displaying element.