A showerhead includes a plurality of water outlets for providing a flow of water. The showerhead includes one or more lighting elements and a light driver communicably coupled to the one or more lighting elements. The light driver is configured to control at least a subset of the lighting elements to output light based on various conditions corresponding to the showerhead.

The present invention relates generally to the field of home decor. More specifically, the present invention relates to a bathroom mat, carpet, or flooring accessory. The device has a body, a top surface, a bottom surface, and side edges forming a perimeter. The bottom surface has at least one grip area or fastener. In differing embodiments, the device may have a multitude of elements such as a heating element, a speaker, a light source, and/or at least one battery. In another embodiment, the device may further function as a scale and have at least one pressure sensor, at least one processor, a digital display, and at least one transmitter. The user's body weight may further be electrically communicated with a mobile application and allow a user to track their body weight via their smart device.

The present invention involves the use a mirror for vanities, such as maintenance of personal care. The mirror includes an arm attaching it to a base member, a flexible arm attaching the base member with a light source, and a base extension attaching to the base member. A user of the mirror of the present invention is able to adaptively light surfaces, such as the face or scalp, to better maintain their personal image.

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 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 unit may include a housing, a reflective mirror, a processor, an electronic display, a speaker, and a network interface. For example, the unit may be capable of monitoring a health factor (e.g., a heart rate) during various activities.

A warmer including base, top cover, warming devices for scented oil. Device includes fan, speaker, heating rod, LED bulb, wi-fi capabilities, control device remotely. The warmer is in a heat conductive relationship with the cover so that scented oil in the open channel is warmed by the warming device. Warmer's lighting system, including: a substrate; first set of light emitting elements and second set of light emitting elements configured to emit visible light having fixed first and second color parameter; diffuser cooperatively enclosing first and second sets of light emitting elements with substrate; communication module including antenna; processor connected to communication module, first set of light emitting elements, and second set of light emitting elements, processor configured to independently control relative intensities of first and second set of light elements to cooperatively emit light having target color parameter value, wherein target color parameter value is received from communication module.

A mirror assembly can include a housing, a mirror, and a light source. In some embodiments, the mirror comprises one or more adjustable sections. In certain embodiments, the mirror includes a light column configured to emit a substantially constant amount of light along a periphery of a mirror section. In some embodiments, the light column can produce various color temperatures. In some embodiments, the mirror assembly comprises a capacitive touch sensor that allows control of one or more features of the light emitted from the light source. In some embodiments, the mirror assembly includes a sensor assembly. The sensor assembly can be configured control on/off settings and other features of the emitted light.

A lighting system for fixtures comprising a removable façade configured to connect or being prior mounted or fabricated with a fixture, the removable façade including an outermost apron, a translucent panel including at least one opening, a sheet panel having at least one reinforcement element, and at least one light source disposed therein, wherein the apron includes at least one opening disposed thereon, and wherein the at least one light source is configured to emit light thought the at least one.

A consumer appliance with a body. A cartridge removably mounted to the body. The cartridge having a surface with a first colored region and a second colored region. A control circuit positioned within the body. A first emitter positioned on the body that projects a light at the first colored region. A second emitter positioned on the body that projects light at the second colored region. A first light sensor positioned on the body that sends a first signal to the control circuit based on a color of light reflected from the first colored region.

Apparatuses, methods, and systems are taught that convey information in a mirror to a user. A glass layer has a front side and a back side. The glass layer further includes a first region. The first region has a first optical property. A second region has a second optical property. The first optical property is different than the second optical property. A first boundary exists where the first region meets the second region and the first boundary is shaped to convey information when the second region is illuminated from the back side and the glass layer is viewed from the front side by the user. When the second region is not illuminated from the back side the first region and the second region provide substantially the same reflection when the glass layer is viewed from the front side by the user, and the first boundary does not convey information.