Abstract: A solar-powered umbrella has a cap structure that is connected by hinges to struts. The struts are relatively rigid and positioned above the umbrella shade and house solar panels. When the umbrella is opened and closed, the struts rotate via the hinges from an open to closed position. When the solar panels are exposed to the sun, light is converted to electrical energy to charge a rechargeable battery. The battery supplies power to one or more USB ports. A user can recharge an electronic device (e.g., smartphone or tablet computer) by connecting to a port of the umbrella using a cable.
Abstract: A fastening unit for attaching a first beam to a second beam is provided, wherein the second beam is arranged substantially perpendicularly to the first beam, the fastening unit having a first axis and a second axis, wherein the second axis is substantially perpendicular to the first axis. The fastening unit comprises a connecting member extending in a direction parallel to the first axis of the fastening unit and having a first edge portion, a second edge portion and a central portion, the connecting member further comprising a coupling element.
Abstract: A solar power conversion kit allows converting of a standard umbrella into a solar charging umbrella, which can then use solar power to charge electronic devices. The solar charging umbrella is self-sustained, capable of charging electronic devices in locations away from electrical outlets. The umbrella has a rechargeable battery that is recharged by sunlight. When charged, the umbrella's battery can charge devices when sunlight is not available. The umbrella supports simultaneous charging of higher power devices such as tablet computers.
Abstract: A solar-powered umbrella has a cap structure that is connected by hinges to struts. The struts are relatively rigid and positioned above the umbrella shade and house solar panels. When the umbrella is opened and closed, the struts rotate via the hinges from an open to closed position. When the solar panels are exposed to the sun, light is converted to electrical energy to charge a rechargeable battery. The battery supplies power to one or more USB ports. A user can recharge an electronic device (e.g., smartphone or tablet computer) by connecting to a port of the umbrella using a cable.
Abstract: A solar-powered umbrella has a cap structure that is connected by hinges to struts. The struts are relatively rigid and positioned above the umbrella shade and house solar panels. When the umbrella is opened and closed, the struts rotate via the hinges from an open to closed position. When the solar panels are exposed to the sun, light is converted to electrical energy to charge a rechargeable battery. The battery supplies power to one or more USB ports. A user can recharge an electronic device (e.g., smartphone or tablet computer) by connecting to a port of the umbrella using a cable.
Abstract: A solar power conversion kit allows converting of a standard umbrella into a solar charging umbrella, which can then use solar power to charge electronic devices. The solar charging umbrella is self-sustained, capable of charging electronic devices in locations away from electrical outlets. The umbrella has a rechargeable battery that is recharged by sunlight. When charged, the umbrella's battery can charge devices when sunlight is not available. The umbrella supports simultaneous charging of higher power devices such as tablet computers.