Surface mount assemblies for mounting to a solar panel frame to an installation surface are disclosed. In some embodiments, a base is coupled to a height-adjustable rail mount to slidably couple a track with a fastener assembly that includes of a fastener, spacer, and nut. In some embodiments, a base is coupled to a rail mount and positioned on a base plate to slidably couple to a surface track with a fastener assembly that includes a first fastener slidably coupled to a groove formed by the track, spacer, and second fastener. In some embodiments, a base is coupled to a rail mount for slidably coupling the rail to a height-adjustable base with a fastener. In some embodiments, a two-configuration, track-mounted, rectangular base is designed with a rectangular base having a pair of short-sided legs, a pair of long-sided legs, and a fastener for engaging outer surfaces of a track.

Surface mount assemblies for mounting to a solar panel frame to an installation surface are disclosed. In some embodiments, a base is coupled to a height-adjustable rail mount to slidably couple a track with a fastener assembly that includes of a fastener, spacer, and nut. In some embodiments, a base is coupled to a rail mount and positioned on a base plate to slidably couple to a surface track with a fastener assembly that includes a first fastener slidably coupled to a groove formed by the track, spacer, and second fastener. In some embodiments, a base is coupled to a rail mount for slidably coupling the rail to a height-adjustable base with a fastener. In some embodiments, a two-configuration, track-mounted, rectangular base is designed with a rectangular base having a pair of short-sided legs, a pair of long-sided legs, and a fastener for engaging outer surfaces of a track.

A charging apparatus for facilitating charging of electric vehicles. The charging apparatus comprises a charging structure, a solar panel, and charging stations. The charging structure is movably positionable on a surface. The charging structure comprises a leg movably erected on the surface and a roof structure comprising two frame pairs supported on the leg. Further, a first frame pair and a second frame pair laterally extend away from a first side and a second side of a top end of the leg and are upwardly inclined with respect to the leg. The first frame and the second frame are upwardly inclined with respect to an attachment axis of the first frame and the second frame. The solar panel is mounted on the roof structure. The charging stations charge electric vehicles based on receiving electrical energy from the solar panel and an electrical grid.

A charging apparatus for facilitating charging of electric vehicles. The charging apparatus comprises a charging structure, a solar panel, and charging stations. The charging structure is movably positionable on a surface. The charging structure comprises a leg movably erected on the surface and a roof structure comprising two frame pairs supported on the leg. Further, a first frame pair and a second frame pair laterally extend away from a first side and a second side of a top end of the leg and are upwardly inclined with respect to the leg. The first frame and the second frame are upwardly inclined with respect to an attachment axis of the first frame and the second frame. The solar panel is mounted on the roof structure. The charging stations charge electric vehicles based on receiving electrical energy from the solar panel and an electrical grid.

A mounting system including a base, a cavity with the base and open to a bottom portion of the base. A port extends from a top of the base into the cavity, and a vent is disposed in the top of the base and extends to the cavity. The port being configured to receive an injected sealant to fill the cavity with the injected sealant, thereby sealing around a penetration in a surface by a surface fastener. The injected sealant forcing air from inside the cavity out of the vent to ensure the injected sealant completely fills the cavity. A slide attached on the base protrudes above the top portion of the base and includes one or more guide rails for slidably receiving a bracket.

A mounting system including a base, a cavity with the base and open to a bottom portion of the base. A port extends from a top of the base into the cavity, and a vent is disposed in the top of the base and extends to the cavity. The port being configured to receive an injected sealant to fill the cavity with the injected sealant, thereby sealing around a penetration in a surface by a surface fastener. The injected sealant forcing air from inside the cavity out of the vent to ensure the injected sealant completely fills the cavity. A slide attached on the base protrudes above the top portion of the base and includes one or more guide rails for slidably receiving a bracket.

A display assembly includes electronic displays secured to a structural framework at an elevated position, the structural framework including one or more members and configured for attachment to a surface. Solar panels are secured to the structure framework at a location above the electronic displays, and bulk energy storage devices are secured to the structure framework and electrically connected with the electronic displays and the solar panels.

A solar powered display assembly and systems and methods for the same are provided. An electronic display portion comprising an electronic display within a housing is secured to a structural framework at a position elevated above a ground surface. A solar energy harvesting device is connected to the structure framework at a position above, and spaced apart from, said electronic display portion, wherein said solar energy harvesting device is electrically connected to the electronic display portion. A bulk energy storage device is located below the electronic display portion. A footprint of the solar energy harvesting device is smaller than footprints for the electronic display portion and bulk energy storage device.

A mounting assembly for use in mid-grab and/or edge-grab applications may include a clamp secured to a stanchion by a clamping fastener. The mounting assembly may also include a mounting plate which may be secured to a mounting device by the stanchion. The mounting assembly may be used, for example, to secure photovoltaic modules (or other devices or structures) of varying heights to a roof or other building surface.

A mounting assembly for use in mid-grab and/or edge-grab applications may include a clamp secured to a stanchion by a clamping fastener. The mounting assembly may also include a mounting plate which may be secured to a mounting device by the stanchion. The mounting assembly may be used, for example, to secure photovoltaic modules (or other devices or structures) of varying heights to a roof or other building surface.