Apparatus, methods and systems of wireless power distribution are disclosed. Embodiments involve the redirection of collimated energy to a converter, which stores or converts the energy into a more suitable form of energy for at least one specific point-of-use that is coupled to the converter.

A security light having optional connection to multiple power supplies. The lighting controller can sense the appropriate connected supply and automatically connect to three different power supplies which include house voltage connection through a typical junction box, a remote solar charging station, and on-board batteries that can be used as a third backup power supply. Additional implementations include power outage detection and backup illumination along with low voltage power supply from a mounting structure.

A security light having optional connection to multiple power supplies. The lighting controller can sense the appropriate connected supply and automatically connect to three different power supplies which include house voltage connection through a typical junction box, a remote solar charging station, and on-board batteries that can be used as a third backup power supply. Additional implementations include power outage detection and backup illumination along with low voltage power supply from a mounting structure.

A mailbox with components which can be connected to or disconnected from the mailbox for adding or changing functional or ornamental aspects of the mailbox.

The present invention relates a solar-powered, floating, fountain lamp, comprising a light-emitting elements, a fountain housing, and a solar panel, and the fountain housing acts not only as a three-dimensional lampshade for a first light-emitting portion, but also as a floating portion of the fountain lamp, and the fountain housing is substantially formed by a saucer-shaped cabin and a cylindrical lower part that are integratedly connected to each other, in which the saucer-shaped cabin located in an axially upper part of the fountain housing has an outer peripheral surface that is smooth and curved, and the plurality of light-emitting elements each project a light beam in a different direction, and the light-emitting elements projecting the light beams outward the fountain housing form point light sources at a top of the fountain lamp, the point light sources on the top act as a second light-emitting portion, and the light-emitting elements projecting the light beams inward the fountain housing form the first light-emitting portion, and the first light-emitting portion provides uniform lighting through the three-dimensional lampshade formed by outer walls of the saucer-shaped cabin and of the cylindrical lower part that are smoothly connected.

A lighted railing assembly with at least one railing member includes an inner cavity, a battery disposed within the inner cavity and a lighting device powered by the battery. A solar panel is integrated into the railing member and is electrically coupled to charge the battery. A controller is configured to control charging of the battery and activation of the lighting device in response to a signal provided by an ambient light sensor.

A lamp platform assembly for emitting at least one light beam in various patterns, directions or orientations may include multi-positional support platform. At least one lamp unit may be carried by the support platform. Each lamp unit may be selectively positional to direct an emitted light beam in a selected direction or orientation. At least one electrical system may electrically interface with the at least one lamp unit. The at least one electrical system may be configured to provide electrical power to the at least one lamp unit.

The present disclosure sets forth a motion sensing outdoor security light with the flexibility of being mounted to either a wall structure or to an eave or ceiling structure. An adjustable spherical motion sensor housing may be provided with the rotationally adjustable outdoor security light, allowing easy adjustment of motion detection ranges under different mounting schemes without comprising the aesthetic design of the light. The adjustable spherical motion sensor housing may also provide an enlarged horizontal field of view for better performance.

A solar lamp has illumination functionality and insect control functionality. The lamp has a main body comprising a main housing, a rechargeable battery housed within lamp for powering the electronic functions of the lamp, device electronics housed within the lamp for controlling the electronic functions of the lamp in a plurality of states comprising an OFF state and an ON state, and a support attached to the lamp, the support containing solar cells for harvesting solar energy and recharging the rechargeable battery and also for detecting a level of ambient light. A transparent panel is disposed at a front of the main body, the panel disposed over a printed circuit board (PCB) on which are disposed a plurality of high-power LEDs for illumination. One or more extension housings are attached to the main body, each extension housing containing an inner grid and an outer grid for electrocuting insects and one or more insect-attracting lights for emitting insect-attracting wavelengths of light. A manual electrical switch is disposed on the lamp for manually selecting a state from the plurality of states. The solar cells, rechargable battery, manual electrical switch, inner grid, outer grid, insect-attracting lights and high-power LEDs are electrically and operatively connected to the device electronics. When the OFF state is selected by the manual electrical switch, the inner grid, outer grid, insect-attracting lights and high-power LEDs are off. When the ON state is selected, the inner grid, outer grid, and insect-attracting lights are on, and if the solar cells are detecting a level of ambient light below a predetermined level, the high-power LEDs are also on.

The present invention relates to the field of street lamp lighting, and more particularly to a tracking type solar and wind-solar hybrid street lamp, the current PV panels of solar and wind-solar hybrid street lamp is fixed installations and cannot be tracked, and the cost of existing tracking technology is expensive due to its complex structure, it is costly and cannot be applied to low-cost solar street lamps at all, how to solve the problem that street lamps can not only be able to tracking, but also have practical value have become a technical problem that needs to be solved urgently in the solar and wind-solar hybrid street lamp industry, the present invention provides a tracking technology that does not require a photoelectric sensor, and is constructed into a variety of tracking-type solar and wind-solar hybrid street lamp with different structures, which satisfactorily solves the above-mentioned problems.