A battery-powered light can be installed in a punt of a bottle during manufacture and then turned on at use. The battery-powered light includes a skid pad that is free of adhesive. A battery insulator pull tab overlies the skid pad and can be removed even after adhering the light assembly to the bottle. The battery insulator pull tab prevents the battery of the light assembly from discharging before being needed. The skid pad prevents adhesive from sticking to the insulator pull tab, thereby making it otherwise unremovable.

There is disclosed a flexible panel, including (i) a fluorescent layer; (ii) an electroluminescent panel layer arranged to illuminate the fluorescent layer; (iii) an ultraviolet protection layer, transparent to visible light, arranged on a front face of the flexible panel to protect the fluorescent layer, and (iv) an adhesive layer; wherein the adhesive layer is arranged on a rear face of the flexible panel, such that the flexible panel is attachable to a surface. There are further disclosed related systems including such flexible panels and a power supply for the flexible panel; objects including such systems; related kits of parts; related methods of assembly; related methods of connection; and connector systems suitable for connecting such flexible panels to a power supply for the flexible panel.

A surface mounted lighting is disclosed and includes a pair of copper foils/strips extending along a length of a removable guide tape. The copper strips are provided with adhesive on their opposite side for securement to the intended surface (e.g. ceiling, wall, etc.) in a room. One or more lights can be adhered to the surface secured copper tape, after the guide tape is removed, to create an electrical connection/communication between the tape and light(s). An electrical controller can also be adhered to the copper tape preferably similar to how the lights are secured to the copper tape to create an electrical connection/communication between the electrical controller and the copper tape and for sending power to the light(s) when the electrical controller is turned on or otherwise instructed. The electrical controller is preferably electrically connected to an electrical outlet within the room for receiving power. The disclosed lighting system is safely and easily installed without any drilling into walls or ceilings.

Provided herein are LED arrays and LED lamp boards, for example, a stick-on lamp board. Each LED array or stick-on lamp board has a printed circuit board to which are mounted a combination of lamp bead types operably connected to the circuit board and a power supply operably connected to the printed circuit. The LED arrays and stick-on lamp beads may be removably or permanently secured to a surface. Also provided are sets and lighting systems of two or more of the LED arrays or stick-on lamp boards.

A light emitting device includes a flexible substrate, at least one light emitting element, a cover member, a reflective member and a light transmissive member. The flexible substrate has a first surface and a second surface opposite to the first surface, and includes a flexible base member and a plurality of wiring portions disposed on a first surface side. The light emitting element is arranged on the first surface of the flexible substrate and electrically connected to the wiring portions. The cover member is arranged on the second surface of the flexible substrate and defines a through hole at a position overlapping the light emitting element in a plan view. The reflective member covers at least a part of a lower surface and at least a part of a side surface of the light emitting element. The light transmissive member covers a top surface of the light emitting element.

A furniture light-emitting assembly and a light-emitting seat having the same, the furniture light-emitting assembly including a strip light, fixing part, heat insulation layer, light guide material layer and power supply assembly. The heat insulation layer is made of a transparent material or a semi-transparent material. The strip light is disposed on the fixing part in a way that a back surface attaching the fixing part or by stitching the fixing part and the light guide material layer together to secure the strip light.

A three-dimensional sticker is disclosed that includes a body. The body has the following components: a main sheet constructed from a thermoformable plastic layer, and a flexible/stretchable ink layer adhered the main sheet. Additionally, the body may employ an adhesive layer comprising a repositionable adhesive adhered to the main sheet and a thermoformable release liner detachably adhered to the adhesive layer. A thermoformable foam layer may reside between the main sheet and the removable adhesive layer. The body is thermoformed into a three-dimensional shape with an anchor region and an elevated region. The anchor region is substantially planar and defines an anchor plane, and the elevated region is outside of the anchor plane. The adhesive layer and release liner may be present in the anchor region and elevated region.

A light control system comprises a light control device and a sensor module configured to detect a motion pattern of a user's hand relative to the entranceway and a light control device. The light control device includes a housing, a proximity sensor configured to detect a position of a door in a vicinity of the entranceway, and a light controller disposed in the housing and communicated with the sensor module and the proximity sensor. The light controller is configured to control the light strip in response to a detected position of the door by the proximity sensor; and control the light strip in response to the motion pattern detected by the sensor module when the door is not detected at a preset opening position or no door is present at the entranceway.

A lighting apparatus fixable to a door is disclosed. The lighting apparatus includes an illumination assembly. The illumination assembly includes a light element, a door position sensor, and a control circuit electrically coupled to the lighting element. The control circuit is configured to control an ON/OFF state of the lighting element based on one or more signals from the door position sensor. In some embodiments, the illumination assembly further includes a housing configured to house the lighting element. The housing is further configured to me mechanically attachable to the door. The control circuit may be further configured to switch from an OFF state to an ON state when the door is moved to a closed position. The control circuit may be further configured to switch the lighting element from an ON state to an OFF state when the door is moved to an open position.

A lighting fixture is provided in a lighting field. The lighting fixture comprises: a housing assembly and a bottom case assembly. The housing assembly comprises a housing, a light-emitting cover, a reflector and a light source assembly. The housing at least includes a lower end face and a sidewall disposed by extending vertically from the lower end face, to provide a mounting space; and the lower end face is provided with an avoidance section and in communication with the mounting space. The light-emitting cover, the reflector and the light source assembly are sequentially superposed in the mounting space; the light-emitting cover is fixedly connected with the housing; and the light-emitting cover abuts against the lower end face and at least partially closes the avoidance section. The bottom case assembly includes a bottom case; the bottom case is located above the light source assembly, assembled with the housing, and fixedly connected with the housing to be compressed together tightly and collectively accommodate the reflector and the light source assembly as well as the light-emitting cover.