A solar module mounting bracket system including a plurality of solar modules including mounting slots formed in a sidewall of the solar module, a torque tube configured to support the solar modules such that they can be rotated, a plurality of mounting brackets configured for integration with the torque tube and to which the plurality of solar modules are mounted, at least one first retainer assembly connected to one of the plurality of mounting brackets, the first retainer assembly including a through bolt, a spring, a mounting tab, and nut. When a solar module is placed on the mounting bracket and supported by the torque tube the mounting tab retainer assembly is received in the mounting slot of the solar module.

A photovoltaic (“PV”) module support system including a first PV module having a first PV panel adapted to generate electrical energy from sunlight. The first PV panel has an upper surface and a lower surface and a first frame secured to the lower surface of the first PV panel. The first frame having a pair of first frame members including an elongate slot. A first joining rail has a body and a first wall projecting outwardly from the body. The first wall is inserted within the elongate slot of one of the pair of the first frame members. A fastener is connected to the one of the pair of first frame members and movable to clamp the wall within the slot, wherein the first PV module is positionally fixed relative to the joining rail.

A module frame includes two longitudinal, and two transverse, frame elements. A longitudinal cover fold, with two longitudinal cover fold end areas, extends from the first longitudinal frame element. A transverse cover fold has two transverse cover fold end areas. The second longitudinal cover fold, and second transverse cover fold, end areas, form a cover fold end area. The bottom surface of the longitudinal cover fold is the height of the top surface of the second longitudinal frame element. The bottom surface of the transverse cover fold is the height of the top surface of the second transverse frame element. The bottom surface of the first transverse cover fold end area is the height of the top surface of the first longitudinal cover end area, and the bottom surface of the cover fold end area is the height of the top surface of the first transverse cover end area.

A method for fabricating a heat exchange construct is provided.

A solar module mounting bracket system including a plurality of solar modules including mounting slots formed in a sidewall of the solar module, a torque tube configured to support the solar modules such that they can be rotated, a plurality of mounting brackets configured for integration with the torque tube and to which the plurality of solar modules are mounted, at least one first retainer assembly connected to one of the plurality of mounting brackets, the first retainer assembly including a through bolt, a spring, a mounting tab, and nut. When a solar module is placed on the mounting bracket and supported by the torque tube the mounting tab retainer assembly is received in the mounting slot of the solar module.

A method and a kit for building a protective structure, the method and the kit including supplying a carrying structure, including a plurality of parallel carrying rails; supplying a group of panels, the panels being able to be engaged on and slide on the carrying rails; and transferring the panels from the storage position to a final position bearing on the carrying rails, by transferring at least one of the panels from the storage position to an insertion position on the carrying rails; using a transfer device lifting the at least one panel upward; placing the transferred panels one after the other bearing on the carrying rails; and moving the transferred panels along the carrying rails.

A method and a kit for building a protective structure, the method and the kit including supplying a carrying structure, including a plurality of parallel carrying rails; supplying a group of panels, the panels being able to be engaged on and slide on the carrying rails; and transferring the panels from the storage position to a final position bearing on the carrying rails, by transferring at least one of the panels from the storage position to an insertion position on the carrying rails; using a transfer device lifting the at least one panel upward; placing the transferred panels one after the other bearing on the carrying rails; and moving the transferred panels along the carrying rails.

A solar panel support unit of an embodiment includes a first support member, a second support member, and a third support member. The first support member includes a first support section and a first attachment section. The first attachment section is disposed at a position spaced by a first distance from the first support section. The second support member includes a second support section and a second attachment section. The second attachment section is disposed at a position spaced by a second distance from the second support section in the panel thickness direction, the second distance being smaller than the first distance, the second attachment section having a second hole to be in communication with the first hole, the second attachment section being to overlap the first attachment section. The third support member includes a third support section and a third attachment section. The third attachment section has a third hole to be in communication with the first hole and the second hole, and is to overlap the second attachment section.

A solar module frame includes two first borders and two second borders. At least one first border includes a first segment and a second segment, where one end of the first segment is connected to one end of the second border, and one end of the second segment is connected to one end of the other second border. The solar module frame includes at least one connection component. One end of the connection component is connected to the other end of the first segment, and the other end of the connection component is connected to the other end of the second segment. Each of the first segment, the second segment, and the connection component includes an external wall, a support wall, a first clamping wall, and a second clamping wall. Each of the first segment and the second segment includes an internal wall.

A bracket for coupling frames of solar panels includes a spacer for positioning between frames. An elongated body passes through a slot in the spacer and is positionable within channels formed in the frames. A clamp secures to the spacer and is biased toward the slot and elongated body, such as by means of a spring. The clamp defines seats for receiving portions of the frames of the solar panels. Sloped portions on end portions of the clamp facilitate insertion of the frames between the elongated body and the clamp. Another type of bracket includes a spacer and clamp, the spacer having protuberances for insertion into channels in the frames. A flange extends from the spacer such that it extends between the frames when the protuberances are positioned within the channels. An L-foot or other fixture may secure to the flange to secure the solar panels to a structure.