A system for positioning a row of photovoltaic solar panels (1) on a support structure (S) arranged in an outdoor space includes a vehicle (20) on which the photovoltaic solar panels (1) to be installed are arranged, and a manipulator robot (24) arranged on-board the vehicle (20) for sequentially picking-up one or more photovoltaic panels (1) from the vehicle, and for positioning them on said support structure (S) as the vehicle moves on one side along the support structure (S). An optoelectronic system (27) is used for automatic optical recognition of the correct position in which a photovoltaic solar panel (1) must be picked-up as well as the correct installing position of the photovoltaic solar panel (1) on the support structure (S).

Methods and apparatuses to support photovoltaic (“PV”) modules are described. A saddle bracket has a mounting surface to support one or more PV modules over a tube, a gusset coupled to the mounting surface, and a mounting feature coupled to the gusset to couple to the tube. A grounding washer has a first portion to couple to a support; and a second portion coupled to the first portion to provide a ground path to a PV module. A PV system has a saddle bracket; a PV module over the saddle bracket; and a grounding washer coupled to the saddle bracket and the PV module. Saddle brackets can be coupled to a torque tube at predetermined locations. PV modules can be coupled to the saddle brackets.

A photovoltaic (PV) module framing and coupling system enables the attachment of PV modules to a roof or other mounting surface without requiring the use of separate structural support members which attach directly to and span between multiple PV modules in a formed PV array. The apparatus provides a parallel coupling for securely interlocking the outside surfaces of parallel frame members together in a side to side arrangement to form an array with improved structural load distribution. The coupling may attach to a slot in the frame at substantially any position along the length of the frame thereby enabling the interconnection of adjacent PV modules along both an x and y axis. The apparatus may further provide a rotating portion and locking portion, mounting brackets for direct connection to a mounting surface, grounding teeth, and a twist-lock engagement means for interlocking and aligning PV modules in the array.

The present invention relates to a mounting structure comprising a structural member having a first surface adapted to engage a support and at least one first flange extending outwardly from a second surface, wherein the first surface is distal from the first flange; and at least one securing member comprising at least one second flange extending outwardly from a surface of the securing member, wherein the securing member is operable to juxtapose with the structural member via the first surface, and engage with the structural member to secure a side of a panel between the first flange and the second flange. The present invention also relates to a mounting structure assembly and method of assembling the same.

In an embodiment, a solar energy system includes multiple photovoltaic modules, each oriented substantially at a same angle relative to horizontal. The angle is independent of a latitude of an installation site of the solar energy system and is greater than or equal to 15 degrees. The solar energy system defines a continuous area within a perimeter of the solar energy system. The solar energy system is configured to capture at the photovoltaic modules substantially all light incoming towards the continuous area over an entire season.

The invention includes a solar canopy a brace assembly for stabilizing a foldable solar canopy structure including: a first brace clamp comprising a first U-shaped body removable attached to a flat body; a second brace clamp comprising a second U-shaped body removable attached to a flat body, wherein the second brace clamp is adapted to encircle and securely attach to a beam and wherein the first brace clamp is removably attached on one side to the second brace clamp at one side; a third brace clamp comprising a third U-shaped body removable attached to a flat body; and a strut member for attaching the third brace clamp to the second brace claim, removably attached at one end to a side of the third brace clamp at on the opposing end to the side of the second brace clamp opposite the side attached to the first brace clamp, thereby forming a linear assembly.

An apparatus and system for quickly and easily assembling PV modules into a PV array in a sturdy and durable manner. In some embodiments, the PV modules may have a grooved frame where the groove is angled into the frame with respect to the planar surface of the modules. Various components may engage within the angled groove to assemble the PV modules into the PV array using what may be referred to as a pivot-fit connection between the components and angled groove. Other embodiments may operate with PV modules having frames without angled grooves as by use of wraparound brackets.

A photovoltaic mounting system including a photovoltaic module having a panel having an upper surface including a plurality of photocells and an opposed bottom surface, the module being bounded by a perimeter edge. A mounting frame is secured to the bottom surface of the module. The mounting frame is offset from each of the perimeter edges of the module. The mounting frame includes an upper surface secured to the module and an opposed lower end having a mounting projection.

A photovoltaic mounting system including a photovoltaic module having a panel having an upper surface including a plurality of photocells and an opposed bottom surface, the module being bounded by a perimeter edge. A mounting frame is secured to the bottom surface of the module. The mounting frame is offset from each of the perimeter edges of the module. The mounting frame includes an upper surface secured to the module and an opposed lower end having a mounting projection.

The invention relates to a holding device (1) for a solar panel (2) on a parapet (3) of a balcony, said device having at least the following components: —a connection arrangement (4) for connecting an element to be held, wherein the connection arrangement has at least one support (5, 6, 7, 8) for placing on a parapet; and —at least one transverse strut (9, 10) for bridging a parapet width, wherein the at least one transverse strut is connected to the connection arrangement and has at least one flange (12, 13) for placing on a parapet, wherein by means of a movement of the at least one flange towards the connection arrangement, the at least one flange and the at least one support press in opposite directions against the parapet. The invention disclosed relates to a holding device which allows for greater flexibility with regard to the structure of a balcony parapet.