A tile system comprises at least two tiles and at least one elongate support. Each tile is generally rectangular in shape and has a first edge, and a second edge, the second edge being generally opposite the first edge. Each elongate support has an attachment portion and a support portion. Proximate the first edge each tile is provided with a groove, the groove being configured to receive the support portion of one of the elongate supports and a portion of an adjacent tile proximate its second edge.

Single-piece hinged-clamps employed used in assemblies used to mount solar power modules to surface installation are disclosed. In some embodiments, a clamp with a right portion with a right notch having a right platform, a left portion with a left notch having a left platform, and a base portion with a flexible hinge is disclosed. The left portion also includes a threaded aperture extending downwardly from the left platform. In some embodiments, a method of securing a component with the clamp is disclosed in which a right member of a component is inserted into a right notch of a clamp, an applied force imparts movement of a left notch away from the right notch, and a buildup of potential energy in the flexible hinge during the application of the force moves the left notch in the opposite direction to engage the left member of the component.

A solar panel assembly having at least one solar panel array pivotally connected to a plurality of legs using a support beam. Cross members are connected to the support beam and extend transversely in relation to the support beam. The cross members are also positioned in parallel spaced relation along a length of the support beam. A plurality of rail members having a top wall with a plurality of slots that extend along a length of the top wall in a first and a second row are connected to the cross members.

A new system of solar construction, technology and methods for making off structure constructed panel blocks are disclosed.

A drive arrangement has a rotary driveshaft (1) bearing a drive finger (10) parallel and offset in the radial direction in relation to the axis of rotation and a locking device (11) offset radially with respect to the finger (10). The drive arrangement also has a coupling unit with a device in the shape of an arc which bears the drive or locking recesses disposed in alteration so as to enable relative rotation/prevent rotation between the unit and the driveshaft (1) when the finger (10) engages in one of the drive/locking recesses. The locking device (11) and the finger (10) are offset along the axis of rotation, and the coupling device has a part bearing the locking recesses and a part bearing the drive recesses, the two parts being positioned parallel and offset along the axis of rotation so as to be able to interact with the locking device (11) or the finger (10), respectively.

A solar panel attachment assembly including a purlin bent into a U-shaped channel with a mounting wall, an upright wall and a cross piece attached to the upper edge. A solar panel having a frame with a lower horizontal wall forming a mounting surface and a vertical wall forming an outer surface. An inwardly directed channel formed on the upper edge of the vertical wall surrounds and fixedly engages the edges of solar sensors. Attachment bolts with a portion of the body being threaded and a tip portion of the body having a drill bit formed therein. The drill bit has an outer diameter smaller than an outer diameter of the bolt threads, and the attachment bolts are positioned to extend through the cross piece of the purlin and through the lower horizontal wall of the cross-section to hold the solar panel in abutting engagement with the purlin.

Single-piece hinged-clamps employed used in assemblies used to mount solar power modules to surface installation are disclosed. In some embodiments, a clamp with a right portion with a right notch having a right platform, a left portion with a left notch having a left platform, and a base portion with a flexible hinge is disclosed. The left portion also includes a threaded aperture extending downwardly from the left platform. In some embodiments, a method of securing a component with the clamp is disclosed in which a right member of a component is inserted into a right notch of a clamp, an applied force imparts movement of a left notch away from the right notch, and a buildup of potential energy in the flexible hinge during the application of the force moves the left notch in the opposite direction to engage the left member of the component.

A solar power generation assembly includes a first canopy wing positioned at a first predetermined inclination and a second canopy wing positioned at a second predetermined inclination, wherein the first and second canopies form a dual-incline structure and a main gutter is disposed between the first and second canopies. Additionally, at least one mounting rail gutter extends perpendicular to the main gutter and a secondary gutter extends parallel to the main gutter, wherein the secondary gutter directs precipitation to the mounting rail gutter and the mounting rail gutter directs precipitation into the main gutter, wherein the secondary gutter, the mounting rail gutter, and the main gutter are configured to provide both mounting and precipitation management functionality to the solar power generation assembly.

Mounting clamps may be utilized to quickly and easily secure solar panel modules relative to mounting rails, which may in turn be secured relative to a mounting surface (e.g., a roof). The mounting clamps may be configured to quickly secure the solar pane modules relative to the mounting rails by tightening a tightening element to pull a clamp element toward the surface of a mounting rail, thereby clamping a portion (e.g., a frame) of a solar panel module between the clamping element and an outer surface of the mounting rail.

A mounting bracket for a solar array includes a top hat assembly including an outer top hat having a longitudinally extending first rail configured to contact a solar module of the solar array, and an inner top having a longitudinally extending second rail also configured to contact the solar module, an actuator arm assembly comprising a pair of actuator arms which extend from the top hat assembly and which form an opening configured to receive a tubular member of the solar array, and a fastener assembly configured to connect the pair of actuator arms and secure the mounting bracket to both the solar module and the tubular member.