An invisible, light-transmissive display system with a light resistant material is provided. Substantially invisible, tapered, light-transmissive holes are penetrated in a light transmissive pattern through at least a portion of the light resistant material using a laser beam having a focal width less than the smallest diameter of the tapered holes.

A solar-powered lamp is disclosed. The lamp includes a plurality of radiating extensions, each being formed from a plurality of flat panels that can fold relative to each other along lines between respective ones of the plurality of flat panels; and an electronics assembly, wherein the lamp is collapsible, and the flat panels for each of the radiating extensions fold relative to each other as the lamp is collapsed.

The present invention relates to a portable indication system, including an indication device and a control device. The indication device has a cover, a printed circuit board, and an indicator. The control device has an operation interface, a wireless transmission module, and a micro-processor. The indicator has a light transmissive member detachable with the cover and a light emitting member that is assembled inside the light transmissive member. A length of the light emitting member penetrates into the interior of the cover to form a connection portion electrically connected with the printed circuit board, and the rest of length of the light emitting member is located outside the cover to form a projection portion coved by the light transmissive member. This invention is designed with a fast-detached mechanism facilitating users to replace the destructed light emitting member or modify the light emitting member by themselves according to their need.

A solar-powered lamp is disclosed. The lamp includes a plurality of radiating extensions, each being formed from a plurality of flat panels that can fold relative to each other along lines between respective ones of the plurality of flat panels; and an electronics assembly, wherein the lamp is collapsible, and the flat panels for each of the radiating extensions fold relative to each other as the lamp is collapsed.

A light system is provided. The light system includes a top housing, a bottom housing, and a side surface extending between the top housing and the bottom housing. An angled reflective surface is arranged between the top housing and the bottom housing and a lighting element is arranged between the top housing and the angled reflective surface. The lighting element is configured to direct light toward the bottom housing to reflect off of the angled reflective surface and out of the side surface.

A light includes a housing with a top face, a bottom face, a first side face, a second side face, and a surface arranged adjacent to the bottom face. The light also includes a head pivotally coupled to the housing, with a diffuser and a plurality of LEDs configured to emit light through the diffuser. The light also includes a power source configured to provide power to the plurality of LEDs. The top face, the bottom face, the first side face, the second side face, and the surface are each configured to support the light, and the surface is oriented at an oblique angle with respect to the bottom face.

A special effects system includes a retroreflective target, an object comprising one or more light sources disposed on an end of the object, where the end of the object is spatially oriented to face the retroreflective target such that light from the one or more light sources is emitted onto the retroreflective target, and a controller communicatively coupled to the one or more sensors and the one or more light sources, wherein the controller comprises a processor configured to adjust the light from the light source based in part on the on the one or more signals output by the one or more sensors, wherein the signals are indicative of a position of the object, or a condition of the one or more light sources.

A light includes a housing with a top face, a bottom face, a first side face, a second side face, and a surface arranged adjacent to the bottom face. The light also includes a head pivotally coupled to the housing, with a diffuser and a plurality of LEDs configured to emit light through the diffuser. The light also includes a power source configured to provide power to the plurality of LEDs. The top face, the bottom face, the first side face, the second side face, and the surface are each configured to support the light, and the surface is oriented at an oblique angle with respect to the bottom face.

A solar-powered lamp is disclosed. The lamp includes a plurality of radiating extensions, each being formed from a plurality of flat panels that can fold relative to each other along lines between respective ones of the plurality of flat panels; and an electronics assembly, wherein the lamp is collapsible, and the flat panels for each of the radiating extensions fold relative to each other as the lamp is collapsed.

A collapsible marshalling wand system that includes a marshalling wand that can be set in an elongated operational configuration while used, as well as a smaller collapsed configuration when not in use, and an accompanying recharging device, along with an accompanying charging station. The marshalling wand includes a plurality of wand portions integrated telescopically, with the wand portions including a lighting system and a wireless alert system. The charging station allows for multiple marshalling wands to be recharged simultaneously in a variety of locations. As such, the collapsible marshalling wand system allows all ground personnel to conveniently keep a marshalling wand with them at all times as well as for extra marshalling wands to be stored at a charging station positioned on runways.