An energized mounting bracket includes a bracket body with one or more cavities and a charge controller and one or more rechargeable batteries located in the one or more cavities. One or more solar panels can be mounted directly to the bracket body or mounted to a housing of an awning unit and the awning unit coupled to the mounting bracket. The one or more solar panels, the one or more rechargeable batteries, and the charge controller can be wired together to enable charging of the rechargeable batteries with the one or more solar panels. Power from the rechargeable batteries can power a motor mounted with the awning unit and optionally power DC outlets.

Provided is a vehicle including a solar panel accommodation part mounted on one side surface among outer surfaces of the vehicle to wind and accommodate a solar panel mounting part; the solar panel mounting part having a structure that is inserted into and accommodated in the solar panel accommodation part, or discharged from one side of the solar panel accommodation part, having a structure that is unfolded to be expanded to an area corresponding to one side surface among an outer peripheral surface of the vehicle after being discharged from the solar panel accommodation part, and configured to mount a plurality of solar cell panels to be spaced apart from each other at predetermined intervals on one side surface; and a controller mounted on the solar panel accommodation part.

Provided is a vehicle including a solar panel accommodation part mounted on one side surface among outer surfaces of the vehicle to wind and accommodate a solar panel mounting part; the solar panel mounting part having a structure that is inserted into and accommodated in the solar panel accommodation part, or discharged from one side of the solar panel accommodation part, having a structure that is unfolded to be expanded to an area corresponding to one side surface among an outer peripheral surface of the vehicle after being discharged from the solar panel accommodation part, and configured to mount a plurality of solar cell panels to be spaced apart from each other at predetermined intervals on one side surface; and a controller mounted on the solar panel accommodation part.

An irradiation apparatus may include: an irradiation unit configured to emit a light beam toward a photoelectric conversion unit of a vehicle, the photoelectric conversion unit being configured to convert light energy into electric energy to charge the power storage unit; an adjustment mechanism configured to adjust at least one of a position or a posture of at least one of the irradiation unit or the vehicle; a detector including a light receiving unit configured to receive reflected light of the light beam, and configured to detect a positional relationship between the photoelectric conversion unit and the irradiation unit based on a light receiving result of the reflected light by the light receiving unit; and a controller configured to control the adjustment mechanism based on a detection result of the detector so that the positional relationship between the photoelectric conversion unit and the irradiation unit becomes a predetermined positional relationship.

An irradiation apparatus may include: an irradiation unit configured to emit a light beam toward a photoelectric conversion unit of a vehicle, the photoelectric conversion unit being configured to convert light energy into electric energy to charge the power storage unit; an adjustment mechanism configured to adjust at least one of a position or a posture of at least one of the irradiation unit or the vehicle; a detector including a light receiving unit configured to receive reflected light of the light beam, and configured to detect a positional relationship between the photoelectric conversion unit and the irradiation unit based on a light receiving result of the reflected light by the light receiving unit; and a controller configured to control the adjustment mechanism based on a detection result of the detector so that the positional relationship between the photoelectric conversion unit and the irradiation unit becomes a predetermined positional relationship.

A self-contained clean energy system includes mirrors that amplify and reflect light received from a battery-powered LED to an angled chamber lined with alternating solar cells and mirrors to power the system and to further power LED lights in similar systems in communication with the clean energy system, which is independent of a power grid.

An automatic darkening filter with adaptive parameter adjustment includes: a welding arc intensity detection unit configured to provide a first signal for determining the welding arc intensity; a solar power supply module configured to provide electric energy for the welding arc intensity detection unit and provide a second signal for determining the ambient light intensity; and a CPU and a light valve, the CPU being configured to calculate a difference between the welding arc intensity and the ambient light intensity based on the first and second signals, and control the scale number of the light valve based on the difference. The automatic darkening filter can realize the automatic adjustment of the scale number, and in the adjustment process, the welding arc intensity signal can be revised based on the ambient light intensity, which can effectively ensure the accuracy of the final determination of the scale number.

An automatic darkening filter with adaptive parameter adjustment includes: a welding arc intensity detection unit configured to provide a first signal for determining the welding arc intensity; a solar power supply module configured to provide electric energy for the welding arc intensity detection unit and provide a second signal for determining the ambient light intensity; and a CPU and a light valve, the CPU being configured to calculate a difference between the welding arc intensity and the ambient light intensity based on the first and second signals, and control the scale number of the light valve based on the difference. The automatic darkening filter can realize the automatic adjustment of the scale number, and in the adjustment process, the welding arc intensity signal can be revised based on the ambient light intensity, which can effectively ensure the accuracy of the final determination of the scale number.

To provide a sheet-like structure capable of highly accurately estimating a sheet-like shape. A sheet-like structure includes a sheet-like member and a plurality of detection sensors. The sheet-like member extends along an in-plane direction orthogonal to a thickness direction and receives light incident on the sheet-like member. The plurality of detection sensors are dispersedly arranged on the sheet-like member along the in-plane direction and are for detecting an incident angle of the light with respect to the sheet-like member at each arrangement position of the plurality of detection sensors.

A portable marine camping apparatus that is configured to provide a camping and recreational platform that can navigate waterways wherein the present invention is inflatable so as to facilitate easy transport thereof. The present invention includes a deck assembly that is superposed a hull portion wherein the deck assembly is planar in manner and includes rigid high pressure air chambers. Integrally formed with the deck assembly is a tent module wherein the tent module is manufactured from inflatable components and is deployed during inflation of the deck assembly. A boat unit is operably coupled to the rear of the deck assembly and is configured to provide propulsion of the portable marine camping apparatus 100. A fire module is formed with the deck assembly and is manufactured from steel grate panels. The fire assembly further includes a receptacle for receiving combustible materials.