A mounting assembly disposable on a nail strip seam rib of a building surface includes a mounting body having an exterior, which in turn comprises a slot configured to separately receive a plurality of different nail strip seam rib profiles. The mounting assembly also includes an insert that is at least partially disposable in the slot, and a threaded fastener that extends through the mounting body, into the slot, and engages the insert.

A mounting bracket assembly mounted to a torque tube beam of a solar tracker assembly and supporting longitudinally extending edge portions of first and second photovoltaic modules, the first set of photovoltaic modules on a first side of the torque tube beam and the second set of photovoltaic modules on an opposite side of the torque tube beam and the longitudinally extending edge portions of the first and second sets of photovoltaic modules extending parallel to the torque tube beam. The mounting bracket assembly includes first and second mounting brackets coupled to the beam. First and second module support members are coupled to and span the first and second mounting brackets. The first module support member includes first and second support arms supporting edge portions of the first photovoltaic module and the second module support member includes third and fourth support arms supporting edge portions of the second photovoltaic module.

A non-drive dynamic stabilizer includes a damper and an actuator. The dynamic stabilizer provides multiple states of support to a solar tracker structure. These states may include 1) flexible movement and/or damping during normal operation (i.e. tracking) and/or 2) rigid or locked, whereby the dynamic stabilizer acts as a restraint. The dynamic stabilizer is actuated by a control system according to the real-time demands on the structure. Sensors to provide input to the control system may include wind speed sensors, wind direction sensors, snow sensors, vibration sensors and/or displacement sensors.

A non-drive dynamic stabilizer includes a damper and an actuator. The dynamic stabilizer provides multiple states of support to a solar tracker structure. These states may include 1) flexible movement and/or damping during normal operation (i.e. tracking) and/or 2) rigid or locked, whereby the dynamic stabilizer acts as a restraint. The dynamic stabilizer is actuated by a control system according to the real-time demands on the structure. Sensors to provide input to the control system may include wind speed sensors, wind direction sensors, snow sensors, vibration sensors and/or displacement sensors.

This invention provides a solar fluid heating panel with fluid conduits that allow a fluid to be heated by the sun. It also provides a mounting system and weather sealing system that allow the panels to replace a traditional roof. The roof replacing panels can be installed quickly using mounting brackets attached to roof purlins. The panels can allow natural ambient light to enter the building while harnessing the sun's energy to heat fluid within the conduits.

This invention provides a solar fluid heating panel with fluid conduits that allow a fluid to be heated by the sun. It also provides a mounting system and weather sealing system that allow the panels to replace a traditional roof. The roof replacing panels can be installed quickly using mounting brackets attached to roof purlins. The panels can allow natural ambient light to enter the building while harnessing the sun's energy to heat fluid within the conduits.

The present invention provides a boltless module mounting system and a method of installing a boltless module. The system includes at least one module frame containing a module laminate, at least one support structure having support rails, and multiple boltless mounting components. The mounting components attach the module frame to the support rails. The present invention also provides a boltless module mounting system including at least one module having posts and at least one support structure with support rails. The support rails have receiving slots with a receiving hole and two or more slide slots. The posts interlock with the receiving slots. The method includes aligning multiple boltless connectors, lowering a boltless module frame onto a support structure, and sliding the frame to interlock the boltless connectors.

Systems and methods for mounting solar panels include a curb assembly coupled to a top surface of a roof. An end of a solar panel rests on a portion of the assembly. An astragal is located with a portion of the astragal extending over the edge of the solar panel. A fastener is engaged through the astragal and the curb assembly such that a portion of the astragal contacts and compressively engages the top surface of the supported solar panel edge, whereby the solar panel is mounted to the roof.

Systems and methods for mounting solar panels include a curb assembly coupled to a top surface of a roof. An end of a solar panel rests on a portion of the assembly. An astragal is located with a portion of the astragal extending over the edge of the solar panel. A fastener is engaged through the astragal and the curb assembly such that a portion of the astragal contacts and compressively engages the top surface of the supported solar panel edge, whereby the solar panel is mounted to the roof.

A mounting bracket assembly for securing facing edge portions of a pair of adjacent photovoltaic panels to a torque tube beam of a solar tracking assembly. The mounting bracket includes a mounting bracket and a fastener assembly including a securing strap for securing the mounting bracket to the torque tube beam. The mounting bracket includes: an upper support structure, a central attachment structure and a lower projection structure extending in a vertical direction downwardly away from the upper support structure. The upper attachment structure includes a first body and a second body spaced apart by the central attachment structure. The lower projection structure including a first rib extending vertically downwardly from the first body and a second rib extending vertically downwardly from the second body. A lower portion of the lower projection structure including a through slot sized to receive the torque tube beam.