A recreational apparatus is provided having an elevated railway system with a vehicle suspended therefrom. The vehicle includes a drive mechanism that is responsive to energy input in order to advance the vehicle along the elevated railway system. The drive mechanism is capable of efficiently motivating the vehicle along straight and curved sections of the elevated railway system with minimal stress on moving parts, and minimal frictional losses.

A solar collector may include a frame for supporting a plurality of photovoltaic (PV) panels. The frame may be adapted to removably attach to a base. The solar collector may include a first panel assembly, including at least one of the plurality of PV panels, pivotally attached to the frame about a first axis. The solar collector may also include a second panel assembly, including at least one of the plurality of PV panels, pivotally attached to the first panel assembly. The second panel assembly may collectively move with the first panel assembly about the first axis and to pivot relative to the frame, and to pivot about a second axis that is substantially parallel to and radially offset from the first axis, to move between a deployed position and a retracted position.

A method for generating a microchannel heat pipe on a substrate surface includes co-extruding a primary material and a secondary material such that the primary material forms side walls that are spaced apart by the secondary material to form a composite structure. After the primary material hardens, the secondary material is removed, whereby the hardened primary material forms a pipe body structure having an elongated central channel defined between opposing end openings. A working fluid is then inserted into the elongated central channel, and sealing structures are then formed over both end openings to encapsulate the working fluid. The co-extrusion process is modified such that the side and upper walls are self-formed either while flowing inside a co-extrusion printhead, or immediately upon exiting the printhead.

A method of using a solar panel support apparatus for selectively positioning a solar panel contained thereon comprises securing forward and rearward legs to the ground or an affixed structure. A solar panel is supported by a rack having an end pivotally attachable to the forward leg. First and second arms pivotally connected to one another pivotally attach to the forward leg and the rack permitting the rack to be positionable relative the forward leg. A locking mechanism locks the first arm and the second arm at a selected angle relative to one another, whereupon securing the rearward and the forward leg to the ground or an affixed structure the rack is pivotal to position the solar panel. Upon positioning the rack to place the solar panel at a selected position, the locking mechanism is engaged to retain the solar panel at the selected position.

A solar cell module includes solar cells each including a semiconductor substrate and first and second electrodes that extend in a first direction on a surface of the semiconductor substrate and have different polarities; conductive lines extended in a second direction crossing the first direction on the surface of the semiconductor substrate included in each solar cell and connected to the first electrodes or the second electrodes through a conductive adhesive; and an insulating adhesive portion extending in the first direction on at least a portion of the surface of the semiconductor substrate, on which the conductive lines are disposed, and temporarily fixing the conductive lines to the semiconductor substrate and the first and second electrodes, the insulating adhesive portion being attached on a back surface of least a portion of each conductive line as well as a side surface of at least a portion of each conductive line.

A concentrator tube comprises a reflector portion having two walls; and an aperture closing an opening to the reflector portion. The aperture and the reflector portion extend longitudinally. The aperture is substantially flat relative to curvature of the reflector portion.

The present invention is premised upon a connector device and method that can more easily electrically connect a plurality of PV arrays and/or locate these arrays upon a building or structure. It also can optionally provide some additional components (e.g. a bypass diode and/or an indicator means) and can enhance the serviceability of the array.

A recreational apparatus is provided having an elevated railway system with a vehicle suspended therefrom. The vehicle includes a drive mechanism that is responsive to energy input in order to advance the vehicle along the elevated railway system. The drive mechanism is capable of efficiently motivating the vehicle along straight and curved sections of the elevated railway system with minimal stress on moving parts, and minimal frictional losses.

A solar powered fan kit is provided for installation in a roof and in the ridge of the roof. The solar powered fan kit includes a fan attached to a fan bracket. The fan bracket is configured to be suspended from a roof within a ridge vent of the roof. A solar panel is attached to the roof to supply power to the fan.

A solar power system can include a rail and a solar module disposed on the rail. A clamp assembly can couple the solar module to the rail. The clamp assembly can have a clamped configuration in which the solar module is secured to the rail and an unclamped configuration. The clamp assembly can comprise an upper clamp member, a lower clamp member coupled to the rail, and a stabilization member mechanically engaging the upper clamp member and the lower clamp member. The stabilization member can prevent rotation of the lower clamp member relative to the rail when the clamp assembly is in the clamped and unclamped configurations. In the unclamped configuration, the stabilization member can be biased such that the upper clamp member is disposed at a sufficient clearance above the rail to permit the insertion of the solar module between the upper clamp member and the rail.