Gas distribution faceplates are disclosed that feature clusters of gas passages extending from inlet gas ports on a first side thereof to outlet gas ports on a second side thereof. The gas passages may each have at least a portion thereof that is at an oblique angle with respect to a nominal centerline of the gas distribution faceplate, thereby allowing the inlet gas ports for a given cluster of gas passages to be tightly grouped together and the outlet gas ports for that cluster of gas passages to be more widely spaced apart. This allows for a large numbers of gas passages to be used, thereby allowing for a reduction of flow rate through each gas passage and an attendant decrease in gas passage erosion rate, while reducing or eliminating the effects of overlapping wear zones around each outlet gas port.

A handheld showerhead assembly including a handheld showerhead and a receiver to which the handheld showerhead is releasably securable. The handheld showerhead includes a push-button on a handle portion thereof for releasing the handheld showerhead from the receiver. The handheld showerhead is maintained securely engaged with the receiver until the push-button is depressed to permit removal of the handheld showerhead from the receiver. Cooperating magnetic components attract the handheld showerhead to the receiver.

A handheld showerhead assembly including a handheld showerhead and a receiver to which the handheld showerhead is releasably securable. The handheld showerhead includes a push-button on a handle portion thereof for releasing the handheld showerhead from the receiver. The handheld showerhead is maintained securely engaged with the receiver until the push-button is depressed to permit removal of the handheld showerhead from the receiver. Cooperating magnetic components attract the handheld showerhead to the receiver.

This application discloses a shower assembly and a two-in-one coffee machine, including a main structure, a shower head, and a needle assembly. The shower head is mounted on the main structure in a manner that can move relative to the main structure, and the shower head has a first position away from the main structure and a second position close to the main structure. When the shower head is located at the first position, water from a water inlet channel flows out through shower holes. When the shower head is located at the second position, a water outlet channel is in sealed communication with the water inlet channel, a needle outlet is located below the shower head, and water in the water inlet channel flows out through the needle outlet. The shower assembly in the present disclosure can form two spraying paths by switching the position of the shower head.

A kitchen shower includes a water outlet mechanism, a switching mechanism and a brush mechanism. The water outlet mechanism is provided with a shower water outlet, a sheet water outlet and a bubble water outlet. The switching mechanism includes a main body, a first switching assembly, a second switching assembly and a third switching component. The first switching assembly is used to switch whether the kitchen shower is out of water, the second switching assembly is used to switch the kitchen shower out of sheet water, and the second switching assembly is used to switch the kitchen shower out of shower water or bubble water. The brush mechanism is detachable and installed on the water outlet mechanism. The brush mechanism can make the kitchen shower clean at the same time of water outlet, so that the cleaning effect is higher.

A device comprising an organic light-emitting diode comprising an organic layer sequence, a radiation exit area and an encapsulation, wherein the organic layer sequence comprises at least one radiation-emitting region which generates electromagnetic radiation in the spectral range from infrared radiation to UV radiation during operation, and wherein the encapsulation forms a seal of the organic layer sequence against environmental influences, at least one touch-sensitive operating element, wherein the at least one touch-sensitive operating element comprises at least one touch sensor, wherein the device is flexible.

A device comprising an organic light-emitting diode comprising an organic layer sequence, a radiation exit area and an encapsulation, wherein the organic layer sequence comprises at least one radiation-emitting region which generates electromagnetic radiation in the spectral range from infrared radiation to UV radiation during operation, and wherein the encapsulation forms a seal of the organic layer sequence against environmental influences, at least one touch-sensitive operating element, wherein the at least one touch-sensitive operating element comprises at least one touch sensor, wherein the device is flexible.

Environmental characteristics of habitable environments (e.g., hotel or motel rooms, spas, resorts, cruise boat cabins, offices, hospitals and/or homes, apartments or residences) are controlled to eliminate, reduce or ameliorate adverse or harmful aspects and introduce, increase or enhance beneficial aspects in order to improve a “wellness” or sense of “wellbeing” provided via the environments. Control of intensity and wavelength distribution of passive and active Illumination addresses various issues, symptoms or syndromes, for instance to maintain a circadian rhythm or cycle, adjust for “jet lag” or season affective disorder, etc. Air quality and attributes are controlled. Scent(s) may be dispersed. Hypoallergenic items (e.g., bedding, linens) may be used. Water quality is controlled. Noise is reduced and sounds (e.g., masking, music, natural) may be provided. Passive and active pathogen controls are employed. Controls are provided for the occupant and/or facility personnel, as is instruction, and surveys, including assessing wellness.

A showerhead engine includes a first plate joined to a second plate with a cavity therebetween. Water enters the cavity through an angled hole in the first plate and flows in a swirling motion about the central axis. A paddle wheel is spun within the cavity by the swirling water. A notched cutout in the paddle wheel forms an exit passage through a through hole in the second plate allowing the water to exit when the notched cutout lines up with slots in the second plate. The revolving paddle wheel continues to revolve thereby revolving the notched cutout and producing a revolving spray pattern.

A showerhead engine includes a first plate joined to a second plate with a cavity therebetween. Water enters the cavity through an angled hole in the first plate and flows in a swirling motion about the central axis. A paddle wheel is spun within the cavity by the swirling water. A notched cutout in the paddle wheel forms an exit passage through a through hole in the second plate allowing the water to exit when the notched cutout lines up with slots in the second plate. The revolving paddle wheel continues to revolve thereby revolving the notched cutout and producing a revolving spray pattern.