The present invention is directed to a novel illuminated address sign assembly comprising a frame having an open front side, an open rear side, a top side, a bottom side, a left side, and a right side, forming an enclosure; an address plaque can be coupled to the open front side of the frame, while the open rear side can be provided with an opaque plaque. The address plaque comprises of an opaque indicia, representing the address, superimposed on a surface of a translucent backlit panel. The novel illuminated address sign can be further provided with a light sensor and GPS system.

A support system for a sign mountable on at least two spaced apart foundation members, the system comprising: i) a base, preferably a length adjustable base, having a first end and a second end; ii) a vertical sign support having a first end and a second end wherein the second end is connected to the base; iii) a first foundation member bracket for connection to a first foundation member, the first foundation member bracket proximate the first end of the base; and iv) a second foundation member bracket for connection to a second foundation member distant the first foundation member, the second foundation member bracket proximate the second end of the base.

A light-emitting sign comprising a light source for emitting light, in which the light-emitting sign may be thin (e.g., comparable to a conventional non-light-emitting sign) while creating a desired visual effect using the light emitted by the light source. This may be achieved, for example, by the light source being thin itself and/or by having an external device connected to the light-emitting sign and implementing certain functionalities (e.g., powering and/or controlling the light source).

The present invention relates to a solar power generation assembly and method for providing same involving an array of solar generating modules on a dual-incline structure, which can achieve high energy yields over a wide range of azimuths/orientations. The assembly consists of canopy wings providing for the dual-incline structure, where, depending on specifications, the canopy wings can differ in length, width, angle of inclination, structural material and solar module or other material mounted on the surface. The canopy wings may be pivoted or hinged to enhance the energy generation and/or other functional benefits of the assembly or system, including display elements, advertising, rainwater/precipitation and snow drainage and collection and energy transmission. The assembly or system is modular and may be assembled in a long continuous configuration in which the inclination, width and tilt of the canopy wings may vary of a long distance to maintain substantially consistent energy yields as the assembly or system orientation changes.

Provided is an outrigger flagpole assembly (10) which comprises a wall-mountable bracket (12), a flagstaff (14) for displaying a flag (20), and a security device or locking formation (14.2) for releasably locking a flag (20) to be displayed to the flagstaff (14) or to the wall-mountable bracket (12). In general, the flagstaff (14) is attached at one end (14.1) thereof to the wall-mountable bracket (12), with a free end (14.2) of the flagstaff (14) extending away from a wall (18) to which the bracket (12) is mounted.

An energy-autonomous display unit for a cabin of a vehicle includes: a display element for displaying information on a display surface; an energy store; a controller; and a photovoltaic element. The photovoltaic element is connected to the energy store and is configured to charge the energy store. The energy store is connected to the display element and the controller for supplying energy. The controller is configured to control the display element and the information displayed on the display surface. The photovoltaic element is a transparent solar cell extending across the entire display surface of the display element. The photovoltaic element is a first layer on the display element.

An integrated wearable energy generation and annunciation system is presented. The system includes a wearable item. The system also includes a plurality of solar panels integral with the wearable item and positionable on the wearable item. The system includes a plurality of light emitting diode (LED) panels integral with the wearable item and positionable on the wearable item. The system includes a plurality of batteries configured to receive power from the solar panels and to power LED panels and system components. The system also includes control circuitry arranged to interface the solar panels, the LED panels, system components, and the batteries. The system also includes a control platform structured to provide control functions for the system to generate power from the plurality of solar panels, to charge the batteries, to power and display data on the LED panels, and to coordinate functionality amongst system components.

A flag display device (1) used for fully displaying a flag regardless of the presence of wind and/or in the dark. The flag display device supports a preferably interchangeable display panel (3) extending between a top horizontal support arm (7) and a bottom horizontal support arm (8) that each extend perpendicularly from a vertical mast (4). At least one display light source (22) illuminates the display panel at night.

This invention relates generally to the field of solar energy renewable power supplies with energy storage and intelligent controls for powering elements of infrastructure. The solar generator has a housing having a first and a second parallel and congruent triangular end faces and rectangular faces perpendicular to the triangular faces, defining an interior volume. A base is formed on one of the rectangular faces and a solar panel is mounted on at least two of the rectangular faces for receiving the solar power energy and producing electrical potential. At least one solar charge controller is electrically connected to the solar panels and one or more rechargeable batteries are electrically connected to the at least one solar charge controller. The solar charge controller and the batteries are mounted on the base within the interior volume of the housing to form a unitary solar generator assembly.

Individual address numbers are provided which can be illuminated using solar energy to completely power the illumination at night would result in great savings in electricity to residential consumers and commercial establishments. The foregoing features are provided by equipping individual address numbers with the necessary elements and circuitry to gather and store solar energy for use in the evening to power light emitting diodes to illuminate each respective individual number. Additionally, wireless capability may be provided which allows the illumination of the individual address numbers to be turned on and off in the event illumination is needed prior to darkness.