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 mirror unit may output a content and may communicate with a user's mobile phone, tablet, personal activity tracker, wearable computer, and/or health monitor. For example, the mirror unit may include a housing, a reflective mirror, a processor, an electronic display, a speaker, and a network interface. For example, the mirror unit may be capable of monitoring, in real-time, a health factor (e.g., a heart rate) during various activities.

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.

An adjustable fluidic coupling includes a fluid channel extending between an upstream fluid inlet and a downstream fluid outlet. An inlet part includes a first conduit extending therethrough between the inlet at an upstream end and a first connection port at a downstream end portion. An outlet part includes a second conduit extending therethrough between the outlet at a downstream end and a second connection port at an upstream end portion. The coupling further includes a compression member selectively movable between a first position and a second position. The fluid inlet includes a threaded portion for torqued threaded connection of the inlet to a threaded end of the wall outlet, and an inlet seal fluidly sealing the inlet port to the wall outlet.

A top spray-water outlet device includes a top spray body, a switching device, clamping jaws, and elastic members. A water inlet, a shower water outlet and two top-spray water outlets are provided in the middle of an upper end of the top spray body. The water inlet is respectively connected to the shower water outlet and the top-spray water outlets. The switching device is arranged on one side above the top spray body. Upper and lower surfaces of the clamping jaw are respectively provided with a rotating shaft and a number of water outlet holes. The rotating shaft is rotatably fitted at the top-spray water outlet and is movably sealed. A water inlet hole is provided above the rotating shaft. The clamping jaws can function as a clamping mechanism to fix the hand shower and also as a water outlet device to spray water in this way.

A smart shower head to regulate temperature of water being supplied is disclosed. The smart shower head comprises a showering section (101) for showering water, a shower head arm connecting the showering section (101) and supplying water to the showering section (101), and at least one compartmentalized nero-thermal coil 103 running through the length of the shower head arm (102) and the showering section (101).

A control system is provided for a fluid delivery device. The control system includes an emitter operable to emit a series of pulses of electromagnetic radiation, as well as a detector operable to detect as a series of detection events electromagnetic radiation pulses reflected by an object on which the emitted pulses of electromagnetic radiation are incident. The control system also includes a microprocessor operable to receive signals corresponding to each detection event from the detector, and to analyse a series of samples of the signals received from the detector. Each sample corresponds to a plurality of successive detection events. The microprocessor is also operable to subsequently generate one or more signals to control operation of the fluid delivery device depending on the results of the analysis.

A portable shower system includes a portable shower apparatus housed in a wheeled cart. The shower apparatus comprises a shower head, at least two water tanks, including a hot water tank and a cold water tank, and a plurality of pipes with valves operably connected to shower faucet knobs or handles. The hot water tank includes a water heater operably connected by power cords to a battery, solar panel, or combination thereof, for heating of water contained therein. The cart includes access doors for filling and maintenance of water tanks. Water pipes in fluid communication with the water tanks, a shower faucet and a shower head enable delivery of hot and cold water to the shower head, in response to use of faucet handles for hot and cold water. The invention provides a solution to the problem of a lack of portable shower facilities for indoor and outdoor use.

A controller is provided for use in a wet environment such as an ablutionary setting. The controller includes a base member, an input member, a seal extending between the input member and the base member, and a sealed internal volume defined at least partially by the base member, the input member, and the seal. The input member is moveable relative to the base member between a neutral position and a control position. The seal biases the input member towards the neutral position.

A showerhead engine internally swirls water within a swirling chamber. Multiple swirling chambers may be used, each separated from one another. The water is swirled angled through holes in a mid plate. As the water passes through the angled holes, it is projected out an angle. The water then contacts the swirling chamber wall and continues to follow the curvature of the wall. The curved wall paired with the angled entry causes the water to continue to swirl within the swirling chamber. The water is released out of the swirling chamber through slots, which allow the water to retain the angular velocity at a discharge angle.