The invention refers to a modular system (1) for cleaning panels or an array of panels (100), comprising: at least two independent modules (10a, 10b) communicating with each other, arranged at the upper and lower ends of the array of panels (100), respectively; and at least one cleaning element (16) arranged transversely to the array of panels (100) between the at least two modules (10a, 10b) by means of couplings (17); wherein each of the modules (10a, 10b) comprises at least one traction element (14) arranged perpendicular to the array of panels (100), wherein said traction element (14) rotates when a force is applied, providing in this way movement to the modules (10a, 10b) through the array of panels (100).

The invention refers to a modular system (1) for cleaning panels or an array of panels (100), comprising: at least two independent modules (10a, 10b) communicating with each other, arranged at the upper and lower ends of the array of panels (100), respectively; and at least one cleaning element (16) arranged transversely to the array of panels (100) between the at least two modules (10a, 10b) by means of couplings (17); wherein each of the modules (10a, 10b) comprises at least one traction element (14) arranged perpendicular to the array of panels (100), wherein said traction element (14) rotates when a force is applied, providing in this way movement to the modules (10a, 10b) through the array of panels (100).

This disclosure relates to system and method for docking or undocking a track-wheel based device. In some embodiments, the system may include a docking station configured to be fitted on a support track for the track-wheel based device. The docking station may include a protrusion to be fitted at a first position on the support track. The protrusion may be configured to make the track-wheel slide on the support track against the protrusion until an indentation on the track-wheel engages with the protrusion upon alignment. The system may further include an end-dock to be fitted at a second position on the support track. A segment of the support track between the first position and the second position is configured to accommodate the track-wheel during docking.

This disclosure relates to system and method for docking or undocking a track-wheel based device. In some embodiments, the system may include a docking station configured to be fitted on a support track for the track-wheel based device. The docking station may include a protrusion to be fitted at a first position on the support track. The protrusion may be configured to make the track-wheel slide on the support track against the protrusion until an indentation on the track-wheel engages with the protrusion upon alignment. The system may further include an end-dock to be fitted at a second position on the support track. A segment of the support track between the first position and the second position is configured to accommodate the track-wheel during docking.

A solar power system may comprise a back sheet that comprises an interconnect circuit coupling a plurality of cell tiles. A tiled solar cell, comprising a solar cell and encapsulating and glass layers, is inserted into the cell tiles of the hack sheet. Each solar cell is individually addressable through the use of the interconnect circuit. Moreover, the interconnect circuit of the back sheet is programmable and allows for dynamic interconnect routing between solar cells.

A solar power system may comprise a back sheet that comprises an interconnect circuit coupling a plurality of cell tiles. A tiled solar cell, comprising a solar cell and encapsulating and glass layers, is inserted into the cell tiles of the hack sheet. Each solar cell is individually addressable through the use of the interconnect circuit. Moreover, the interconnect circuit of the back sheet is programmable and allows for dynamic interconnect routing between solar cells.

A new integrated unitary system for producing electricity for a greenhouse or other metal carpentry structure associates a photovoltaic system, an innovative apparatus reflecting solar radiation, and an innovative water system for cooling and washing photovoltaic panels, which are all combined with the greenhouse or the metal carpentry structure.

A new integrated unitary system for producing electricity for a greenhouse or other metal carpentry structure associates a photovoltaic system, an innovative apparatus reflecting solar radiation, and an innovative water system for cooling and washing photovoltaic panels, which are all combined with the greenhouse or the metal carpentry structure.

In a system for cleaning cover glasses (1) of photovoltaic modules (2, 2a) with an autonomous cleaning device (6, 6.1, 6.2, 6.3), a comparison device (3) and an inspection module (4) are to be provided in addition to the autonomous cleaning device (6, 6.1, 6.2, 6.3), the autonomous cleaning device (6, 6.1, 6.2, 6.3) a megasonic transducer (17, 67), and the autonomous cleaning device (6, 6.1, 6.2, 6.3) and the inspection module (4) being transportable to the photovoltaic modules (2, 2a).

In a system for cleaning cover glasses (1) of photovoltaic modules (2, 2a) with an autonomous cleaning device (6, 6.1, 6.2, 6.3), a comparison device (3) and an inspection module (4) are to be provided in addition to the autonomous cleaning device (6, 6.1, 6.2, 6.3), the autonomous cleaning device (6, 6.1, 6.2, 6.3) a megasonic transducer (17, 67), and the autonomous cleaning device (6, 6.1, 6.2, 6.3) and the inspection module (4) being transportable to the photovoltaic modules (2, 2a).