A solar panel assembly having at least one solar panel array pivotally connected to a plurality of legs using a support beam. Cross members are connected to the support beam and extend transversely in relation to the support beam. The cross members are also positioned in parallel spaced relation along a length of the support beam. A plurality of rail members having a top wall with a plurality of slots that extend along a length of the top wall in a first and a second row are connected to the cross members.

A portable post office contained within an intermodal container is disclosed. Such a structure may include a rack movably secured to a track mounted in the ceiling of said container via a trolley. The rack may be configured to hold a plurality of post office boxes, each box having a lockable door facing the center aisle of the container, and an open end facing the rear of the rack. The rack may be positioned against an interior side wall of the container and secured in place via a locking mechanism to prevent access to the open ends of the post office boxes. An individual may release the locking mechanism and move the rack into the center aisle along the track to access the open ends of the post office boxes. The rack member may then be moved back along the track and re-secured against the side wall.

A solar panel is electrically coupled to a battery and configured to convert solar energy to electricity to charge the battery. A heating element is electrically coupled to the battery. A thermal sensor is configured to detect an ambient temperature. The thermal sensor is configured to produce a temperature stream indicative of the detected ambient temperature. A humidity sensor is configured to detect an ambient humidity. The humidity sensor is configured to produce a humidity stream indicative of the detected ambient humidity. A controller is electrically couple to the thermal sensor the humidity sensor, and the heating element. The controller is configured to receive a profile that includes an initial designated duration and an initial temperature needed for a designated machine, and produce a current for the heating element to heat the designated machine for the designated duration and temperature.

The disclosed subject matter relates to a solar power supply device for a light, comprising at least one tubular solar module that can be slid onto a mast, and a crown which can be fitted to the top of the mast and from which the solar module is suspended, wherein the solar module contains in its interior at least one pair of spring elements that can be resiliently spread apart, between which the mast can be passed through. The invention further relates to a lighting device comprising a mast and a solar power supply device of this kind, the crown of which is fitted to the top of the mast and through the spread-apart spring elements of which the mast is passed through, and at least one light that is supported by the solar power supply device and is electrically powered thereby.

The disclosed subject matter relates to a solar power supply device for a light, comprising at least one tubular solar module that can be slid onto a mast, and a crown which can be fitted to the top of the mast and from which the solar module is suspended, wherein the solar module contains in its interior at least one pair of spring elements that can be resiliently spread apart, between which the mast can be passed through. The invention further relates to a lighting device comprising a mast and a solar power supply device of this kind, the crown of which is fitted to the top of the mast and through the spread-apart spring elements of which the mast is passed through, and at least one light that is supported by the solar power supply device and is electrically powered thereby.

Trailer mounted portable solar power supplies disclosed can include lights and a backup generator. A solar array with solar panels can be connected to a 360 degree rotatable turntable mounted on a trailer frame enabling the capture of sunlight from all directions. A rotatable telescoping mast with mounted lights can be mounted to the trailer frame. Solar power supply systems can be configured with or without batteries. The AC voltage output can provide electricity for vehicles, homes, buildings, electric vehicles, etc. Portable solar power systems can implement multiple solar arrays to capture more sunlight and generate more electricity. The solar arrays and solar panels are foldable allowing the power system to be retracted for transport. The solar panels can also include sensors to control the positioning of the panels and turn the lights on and off by an onboard computer or wirelessly.

Trailer mounted portable solar power supplies disclosed can include lights and a backup generator. A solar array with solar panels can be connected to a 360 degree rotatable turntable mounted on a trailer frame enabling the capture of sunlight from all directions. A rotatable telescoping mast with mounted lights can be mounted to the trailer frame. Solar power supply systems can be configured with or without batteries. The AC voltage output can provide electricity for vehicles, homes, buildings, electric vehicles, etc. Portable solar power systems can implement multiple solar arrays to capture more sunlight and generate more electricity. The solar arrays and solar panels are foldable allowing the power system to be retracted for transport. The solar panels can also include sensors to control the positioning of the panels and turn the lights on and off by an onboard computer or wirelessly.

A bifacial solar module with enhanced power output including first and second transparent support layers, a plurality of electrically interconnected bifacial solar cells arranged between the transparent support layers with gaps between one or more of the interconnected solar cells and edges of the first and second transparent support layers, the bifacial solar cells having a first side directly exposed to solar radiation and a second side opposite the first. The bifacial solar module further includes one or more micro-structured reflective tapes positioned coincidentally with the gaps and attached to a surface of the second support layer such that light passing through the second support layer is reflected back into the second support layer at angles such that light reflecting from the tape is absorbed by either the first or second side of the bifacial solar cells.

A bifacial solar module with enhanced power output including first and second transparent support layers, a plurality of electrically interconnected bifacial solar cells arranged between the transparent support layers with gaps between one or more of the interconnected solar cells and edges of the first and second transparent support layers, the bifacial solar cells having a first side directly exposed to solar radiation and a second side opposite the first. The bifacial solar module further includes one or more micro-structured reflective tapes positioned coincidentally with the gaps and attached to a surface of the second support layer such that light passing through the second support layer is reflected back into the second support layer at angles such that light reflecting from the tape is absorbed by either the first or second side of the bifacial solar cells.

Foldable solar power systems are disclosed herein. In some embodiments, a solar power system includes a support structure mounted to an intermediate bulk container (IBC) or other tank structure. A plurality of solar panels are mounted to the support structure. The support structure is movable between (a) a first configuration for storage and transport and (b) a second configuration for energy generation. In the first configuration, the solar panels are folded adjacent to a sidewall of the IBC. In the second configuration, the solar panels are opened/expanded and generally coplanar with one another. The solar panels can be aligned with a solar energy source in the second configuration to generate electrical energy. The IBC can be filled with a ballast material to anchor the solar panels in the second configuration.