A measurement device which enables to determine the optimum angle values and orientations of collectors/cells and which enables to measure both direct radiation and diffuse radiation, essentially includes a main body; a solar cell which generates current from solar energy; an actuation mechanism which is adapted to move the solar cell in horizontal and vertical axis; an upper cover which prevents the sun beams reaching the solar cell by covering the upper part of the main body; a second cover on each one of the lateral walls of the upper cover; a current detector which measures the current generated by the solar cell, a control unit which includes a processing unit adapted to generate angle signals that will move the first motor and second motor and determine the optimum angle values according to current information corresponding to the angle signals and the angle information corresponding to the current information.

A machine for rotary driving screw anchors into underlying ground and related. The machine has a mast with a rotary driver and a mandrel driver oriented on a common axis. The mandrel driver passes a mandrel through the rotary driver and the screw anchor to allow the mandrel to be actuated ahead of the screw anchor while the rotary driver drives the screw anchor into the ground. Alternatively, the mandrel driver may also drive a hammering drill through the screw anchor to clear a path ahead of it through subsurface rocks.

The apparatus may include a ridge member, a first arm rotatably coupled to the ridge member and extending outward, relative to the ridge member, in a first plane angled relative to a first pitch of a roof structure. Also, the apparatus may include a second arm rotatably coupled to the ridge member and extending outward, relative to the ridge member, in a second plane angled relative to a second pitch of the roof structure. The ridge member may be positioned at an apex between the first pitch and the second pitch along a ridge of the roof structure. Further, materials for installation may be placed on at least one of the first arm and the second arm positioned between the roof structure and the materials. Additionally, the apparatus may include a load arm coupled at each respective end portion of the first arm and the second arm.

A system for mounting a service component to a building structure has a plurality of elongate feet, and a plurality of connectors that each interconnect a respective one of the feet with the service component. Each foot is configured to affix to a surface of the building structure and then to resist disengagement from that surface. The connectors each interconnect a respective one of the feet with the service component, and secure the relative position of the respective foot and the service component. An elongate beam can be connected or connectable to the service component, such that in the installed system the beam is to be positioned to extend obliquely across the feet.

Mounting components of photovoltaic (PV) modules and PV module assemblies are described, including PV module couplings and PV module mounting chassis. In an example, a PV module includes a PV module coupling having a toe portion extending from a PV module frame, and a PV module mounting chassis includes a toe slot to receive the toe. The toe and toe slot construction allows for the PV module frame to be assembled to the PV module mounting chassis without using tools, and thus, permits a PV module assembly to be quickly constructed during installation of a PV module system. Furthermore, the toe and toe slot construction accommodates thermal expansion and other environmental loads seen after installation, while providing a grounding connection for the PV module assembly.

A non-invasive roof attachment system for attaching structures to residential and commercial roofs without the use of penetrations to roofing shingles and sealing layers is described. The attachment system includes vertical and lateral array stays to attach roof mounted systems such as solar panels. The non-slip attachment system also allows for the quick removal of such roof mounted systems rapidly and without the need for repair of penetrations. The non-slip attachment system uses, among other things, an array-stay retainer comprising a vertical member and a horizontal member. A high friction foam polymer padding may further secure the array stays to the roof.

The solar energy and solar farms are used to generate energy and reduce dependence on oil (or for environmental purposes). The maintenance, operation, optimization, and repairs in big farms become very difficult, expensive, and inefficient, using human technicians. Thus, here, we teach using the robots with various functions and components, in various settings, for various purposes, to improve operations in big (or hard-to-access) farms, to automate, save money, reduce human mistakes, increase efficiency, or scale the solutions to very large scales or areas, e.g., for repair, operation, calibration, testing, maintenance, adjustment, cleaning, improving the efficiency, and tracking the Sun.

Mounting components of photovoltaic (PV) modules and PV module assemblies are described, including PV module couplings and PV module mounting chassis. In an example, a PV module includes a PV module coupling having a toe portion extending from a PV module frame, and a PV module mounting chassis includes a toe slot to receive the toe. The toe and toe slot construction allows for the PV module frame to be assembled to the PV module mounting chassis without using tools, and thus, permits a PV module assembly to be quickly constructed during installation of a PV module system. Furthermore, the toe and toe slot construction accommodates thermal expansion and other environmental loads seen after installation, while providing a grounding connection for the PV module assembly.

A method for building a protective structure, comprising the following steps: a) a carrying structure, including a plurality of parallel carrying rails, is supplied; b) a group of panels is supplied; the panels being able to be engaged on and slide on the carrying rails; d) the panels are transferred from the storage position to a final position bearing on the carrying rails, by performing the following operations: d1) at least one of the panels is transferred from the storage position to an insertion position on the carrying rails, using a transfer device lifting said at least one panel upward; the transferred panels being placed one after the other bearing on the carrying rails; d2) the transferred panels are moved along the carrying rails.

A kit for building a protective structure according to the preceding method.

A photovoltaic apparatus includes: a power generation part; an angle changeable mechanism configured to support the power generation part so as to be able to change an elevation of the power generation part; a post configured to support the power generation part and the angle changeable mechanism; and a hinge mechanism configured to support the post so as to be able to change an angle of the post relative to an installation surface for the photovoltaic apparatus.