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.

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.

A roof mounting system for the attachment of an article to a roof, the system comprising a plurality of PV modules each having at least one corner and a frame member, a flashing member having a top surface; an upstanding sleeve attached to the top surface of the flashing member; an elevated water seal having a borehole formed therethrough, the elevated water seal further comprising at least one screw for providing a waterproof seal between the article and the roof structure; and whereby the plurality of PV modules are interlocked in a way to provide a corner-to-corner coupling arrangement supported above the roof through the frame members of the plurality of PV modules.

A roof mounting system for the attachment of an article to a roof, the system comprising a plurality of PV modules each having at least one corner and a frame member, a flashing member having a top surface; an upstanding sleeve attached to the top surface of the flashing member; an elevated water seal having a borehole formed therethrough, the elevated water seal further comprising at least one screw for providing a waterproof seal between the article and the roof structure; and whereby the plurality of PV modules are interlocked in a way to provide a corner-to-corner coupling arrangement supported above the roof through the frame members of the plurality of PV modules.

A monolithic trim piece is used for covering an opening between the edge of a photovoltaic module and the roof. The trim piece, with a curved front face, is attached to the underside of the photovoltaic module(s) using a standardized end-clamp (for a single module) or a standard mid-clamp (for a pair of modules). A threaded fastener with a T-shaped head can be used in a recessed channel located underneath an attachment flange of the trim piece.

In an example, the present invention provides a solar tracker apparatus. In an example, the apparatus comprises a center of mass with an adjustable hanger assembly configured with a clam shell clamp assembly on the adjustable hanger assembly and a cylindrical torque tube comprising a plurality of torque tubes configured together in a continuous length from a first end to a second end such that the center of mass is aligned with a center of rotation of the cylindrical torque tubes to reduce a load of a drive motor operably coupled to the cylindrical torque tube. Further details of the present example, among others, can be found throughout the present specification and more particularly below.

A mounting system 110 for a solar panel 11 includes a base plate 114 having an elongated mounting slot 116, a spacer beam 124 with a slot 128, a first T-shaped fastener 131 having a mounting plate 132 with a width slightly smaller than the size of the slot and a length larger than the size of the slot, so that the mounting plate may be passed through the slot and then rotated so that it then cannot pass back through the slot. A second T-shaped fastener 137 having the same configuration couples the solar panel to the spacer. The system optionally has a ballast system 145 which includes a ballast tray 146 and third T-shaped fastener 155 of the same configuration for coupling the tray to the base plate. An anti-creep strip 161 is coupled to the base member through fourth T-shaped fasteners 162 of the same configuration.

A mounting system 110 for a solar panel 11 includes a base plate 114 having an elongated mounting slot 116, a spacer beam 124 with a slot 128, a first T-shaped fastener 131 having a mounting plate 132 with a width slightly smaller than the size of the slot and a length larger than the size of the slot, so that the mounting plate may be passed through the slot and then rotated so that it then cannot pass back through the slot. A second T-shaped fastener 137 having the same configuration couples the solar panel to the spacer. The system optionally has a ballast system 145 which includes a ballast tray 146 and third T-shaped fastener 155 of the same configuration for coupling the tray to the base plate. An anti-creep strip 161 is coupled to the base member through fourth T-shaped fasteners 162 of the same configuration.

A solar power system may include rails, solar modules, and a plurality of clamps to secure the solar modules to the rails. An end clamp may be partially disposed inside a rail at an end of the rail. The end clamp may secure a solar module to the rail by coupling to the frame of the solar module. The end clamp may include a fastener that may be tightened to engage the end clamp and secure the solar module by holding it on top of the rail. The end clamp may establish an electrical grounding connection between the frame of the solar module and the rail.

In various representative aspects, an assembly for securing a solar panel rail and rail-less support structures to a shingle roof. More specifically, the apparatus includes a connection bracket and flashing device for use in installing solar panel rail support structures. The connection bracket is secured to the flashing device by rotating its base around a threaded connection until it locks in place so that a solar panel rail support guide can be connected to a generally U-shaped connection on the top of the bracket. The apparatus also offers an improved means to cover the penetration point on the flashing to protect it and prevent water from leaking into the roof as well as an improved way to install the apparatus over existing products. An alternate embodiment of the apparatus is offered to support a rail-less pivot mount as well.