Energía solar fotovoltaica

ABRI, PARKING POUR VÉHICULE ET PROCÉDÉ DE CONSTRUCTION D’UN ABRI

Resumen de: FR3165914A1

TITRE DE L’INVENTION : ABRI, PARKING POUR VÉHICULE ET PROCÉDÉ DE CONSTRUCTION D’UN ABRI L’abri (1) comporte un toit (5) et au moins un pilier (3) qui supporte au moins partiellement le toit, chaque pilier comportant :- une semelle (11),- une poutre (12) plus haute que la semelle,- plusieurs jambages (13, 14, 15) reliant la semelle et la poutre l’une à l’autre,- un contenant (25), et- du lest (26) placé dans le contenant de manière que la semelle reçoive au moins une partie du poids de ce lest.Au moins des jambages comporte deux barres montantes entre lesquelles passent le contenant et le lest. Le lest comporte un gabion ou un assemblage de gabions comprenant un matériau fragmentaire. Le contenant comporte un treillis de fils métalliques, un treillis de lattes, des tôles et/ou des panneaux de bois. Figure de l’abrégé : figure 2

SANDWICH PANEL AND BUILDING ENVELOPE THEREOF

Resumen de: WO2026047434A1

The invention relates to a sandwich panel comprising a photovoltaic active area positioned on the outer sheet and whose electrical connectors are positioned in a first cavity positioned within the insulation material and adjacent to either one of the sides of the insulation material or the inner sheet so that the electrical connectors can be accessed from the first cavity.

SANDWICH PANEL AND BUILDING ENVELOPE THEREOF

Resumen de: WO2026047377A1

The invention relates to a process for manufacturing a sandwich panel comprising a photovoltaic active area positioned on the outer sheet and whose upper, respectively lower, electrical conductor is connected to an upper, respectively lower, cable at the backside of the outer sheet, the latter comprising a cavity in which one of the first upper electrical connector and the first lower electrical connector is positioned, the process comprising positioning the outer sheet in a mold, inserting the other of the first upper electrical connector and the first lower electrical connector, with a downstream portion of its cable, either in a hole in one of the sides of the mold or in a groove formed in the inner sheet or in a groove formed in the outer sheet, putting insulation in place and maintaining the inner sheet at a given distance from the outer sheet.

SANDWICH PANEL AND BUILDING ENVELOPE THEREOF

Resumen de: WO2026047378A1

The invention relates to a process for manufacturing a sandwich panel comprising a photovoltaic active area positioned on the outer sheet and whose upper, respectively lower, electrical conductor is connected to an upper, respectively lower, cable at the backside of the outer sheet, the process comprising positioning the outer sheet in a mold, inserting at least one of the first upper electrical connector and the first lower electrical connector, with a downstream portion of its cable, in a groove formed in the outer sheet, putting insulation in place and maintaining the inner sheet at a given distance from the outer sheet.

SANDWICH PANEL AND BUILDING ENVELOPE THEREOF

Resumen de: WO2026047370A1

The invention relates to a sandwich panel comprising a photovoltaic active area positioned on an outer sheet comprising an outer mortise and an outer tenon, the upper, respectively lower, electrical connector of the photovoltaic active area being positioned in an upper, respectively lower, cavity, the upper cavity being positioned within the insulation material in the upper half of the sandwich panel and adjacent to either one of the longitudinal sides of the insulation material or the inner sheet so that the upper electrical connector can be accessed from the upper cavity, the lower cavity being positioned within the insulation material in the lower half of the sandwich panel and adjacent to either one of the longitudinal sides of the insulation material or the inner sheet so that the first lower electrical connector can be accessed from the lower cavity.

SANDWICH PANEL AND BUILDING ENVELOPE THEREOF

Resumen de: WO2026047369A1

The invention relates to a sandwich panel comprising a photovoltaic active area positioned on the outer sheet and whose electrical connectors are positioned in a first cavity positioned within the insulation material and adjacent to either one of the sides of the insulation material or the inner sheet so that the electrical connectors can be accessed from the first cavity.

SANDWICH PANEL AND BUILDING ENVELOPE THEREOF

Resumen de: WO2026047368A1

The invention relates to a sandwich panel comprising a photovoltaic active area positioned on the outer sheet, whose upper electrical connector is positioned in an upper cavity positioned within the insulation material adjacent to the upper transverse side of the insulation material so that the upper electrical connector can be accessed from the upper cavity along the upper transverse side, and whose lower electrical connector is positioned in a lower cavity positioned within the insulation material adjacent to the lower transverse side of the insulation material so that the lower electrical connector can be accessed from the lower cavity along the lower transverse side.

SOLAR TRACKER SUPPORT FRAME HARD STOPS AND BRACES

Resumen de: WO2026050025A1

A solar tracker support frame assembly includes a multi-leg solar tracker support frame, a hanging bearing housing assembly, a hard stop member, and a brace member. The hanging bearing housing assembly is at the multi-leg solar tracker support frame and is configured to support a torque tube below a bridge of the frame. The hard stop member interfaces with at least one of a first leg, a second leg, and the bridge of the frame. The hard stop member includes an interference surface configured to contact the torque tube and thereby impede further movement of the torque tube beyond the interference surface. The brace member extends between the first and second legs of the frame below the bridge and below the hard stop member.

MULTIFUNCTIONAL SOLAR POWER DECK SYSTEM

Resumen de: WO2026047520A1

Disclosed herein is a solar deck system comprising a plurality of planks configured to form a deck or patio structure, each plank including at least one recess receiving a solar cell and a transparent covering flush with the walking surface. The solar cells are electrically interconnected and operably coupled to at least one energy storage unit for collection and use of generated electrical power. Each plank further incorporates a cooling array disposed beneath the solar cell, the array comprising cooling tubing embedded in an aluminum heat sink and fluidly connected between storage tanks. Circulating fluid absorbs excess heat to maintain solar cell efficiency and longevity while capturing recoverable thermal energy. Stored thermal energy may be directed to a heat pump, while stored electrical energy may power residential or commercial loads and auxiliary components. The integrated system enables efficient, modular, and optionally off‑grid energy generation directly from a deck installation.

Method of retrofitting an existing flat or flat-inclined roof of a building, flat or flat-inclined roof for a building and assembly for a retrofit system to be used on an existing flat or flat-inclined roof of a building

Resumen de: WO2026046901A1

The inventions relates to a method of retrofitting an existing flat or flat-inclined roof (1) of a building, the existing roof (1) comprising at least a first layer (3) of a combustible insulation being arranged on a substructure (2) and being covered with a first membrane (4) as a roof seal, whereby a second layer (5) of a preferably non-combustible insulation is arranged on top of the first membrane (3) before the second layer (5) of preferably non-combustible insulation is covered with a second waterproofing membrane (6) and before finally a photovoltaic system (7) with at least one photovoltaic panel (9) is arranged with a distance to and on top of the second waterproofing membrane (6).

SYSTEMS AND METHODS FOR PHOTOVOLTAIC PRODUCTION CURTAILMENT AND AUTONOMOUS LOAD BREAKING

Resumen de: US20260066665A1

The present disclosure provides curtailing photovoltaic (PV) power output and autonomous load breaking in a backup mode of an electrical system. The electrical system includes a PV system, an energy storage system having a storage converter, and an energy control system. The energy control system is electrically coupled to the PV system, the energy storage system, and a plurality of backup loads. The electrical system includes an autonomous load breaker electrically coupled to a first backup load. When the energy control system switches from an on-grid mode to the backup mode, the storage converter adjusts the frequency of the power supplied to the backup side of the energy control system to a setpoint frequency that curtails PV power output, and the autonomous load breaker electrically disconnects the first backup load from the energy control system.

INVERTER AND PRIMARY CONTROLLER OF PHOTOVOLTAIC POWER GENERATION SYSTEM, AND METHOD OF OPERATING PHOTOVOLTAIC POWER GENERATION SYSTEM

Resumen de: US20260066664A1

Provided are an inverter and a primary controller of a photovoltaic power generation system, and a method of operating the photovoltaic power generation system. The method of operating a photovoltaic power generation system may include assigning identification information to each of a plurality of module-level power electronics (MLPEs) connected to a plurality of photovoltaic panels, based on a registration request from each of the plurality of MLPEs, monitoring the plurality of MLPEs and determining whether an error has occurred in the plurality of MLPEs based on a result of the monitoring, and marking an error flag on the identification information of at least one MLPE among the plurality of MLPEs when it is determined that the error has occurred in the at least one MLPE.

SOLAR ENERGY MOBILE PHONE CASE/ BACK COVER

Resumen de: US20260066674A1

The Smart Energy Consumption Monitoring System with Integrated Fast Charging and Solar Power provides a comprehensive solution for monitoring and managing energy usage in real-time for mobile devices. The system integrates sensors, data processing units, machine learning algorithms, solar panels, an MPPT module, and a fast-charging module to optimize energy consumption, promote efficiency, and ensure sustainable power supply.

SOLAR CHARGE CONTROLLER

Resumen de: US20260066673A1

A solar charge controller for at least one solar panel array and at least one battery, the solar charge controller being adapted to be electrically connected with the at least one solar panel array and the at least one battery, the solar charge controller includes a built-in modem configured for two-way communication between the solar charge controller and a user, the built-in modem includes a soft SIM. A system including a plurality of solar charge controllers. A method of two-way communication between a solar charge controller and a user.

SOLAR BATTERY, AND SOLAR BATTERY PANEL AND METHOD FOR MANUFACTURING SAME

Resumen de: US20260068335A1

A solar battery according to the present embodiment has an electrode, which includes a metal and an adhesive material, formed in a conductive region including a polycrystalline semiconductor layer, and thus, the electrical characteristics of the solar battery may be improved and the manufacturing process thereof may be simplified. More specifically, the solar battery includes a semiconductor substrate, and the conductive region including the polycrystalline semiconductor layer is positioned on one surface of the semiconductor substrate.

DIRECTIONAL SLIDE LOCKING RAIL FOR SOLAR MODULE FRAME COUPLING

Resumen de: WO2026050019A1

A system includes a solar module and a slide locking rail for coupling to the solar module frame. The solar module frame includes a locking flange. The slide locking rail includes a rail body, a first sidewall at a first side of the rail body, an alignment tab at the rail body spaced apart from the first sidewall, a first channel defined between the first sidewall and the alignment tab along the first side of the rail body, and a first hard stop extending transversely across at least a portion of the first channel. Upon relative movement between the solar module frame and the rail body, the first channel is configured to receive the locking flange of the solar module frame in contact with the first hard stop at the first channel.

DISPLAY DEVICE

Resumen de: US20260068507A1

Provided is a display device including: a substrate including a display area and a peripheral area that includes a bending area disposed adjacent to the display area; a plurality of pixels arranged in the display area; a driving circuit arranged in the peripheral area; a barrier rib layer arranged in the bending area; an input detection layer disposed on the plurality of pixels; and an optical functional layer including a first layer that is disposed on the input detection layer and includes a first opening in an area corresponding to the plurality of pixels, and a second layer that is disposed on the first layer and having a refractive index different from the first layer, wherein the first layer includes at least one valley located between the bending area and the driving circuit.

EXPANDABLE SOLAR PANEL ARRAY SYSTEM AND KITS FOR SAME

Resumen de: US20260066842A1

Described are various embodiments of an expandable solar panel array and a solar panel installation kit for installing at least two solar panels on a vehicle, such array and/or kit having a generally nested configuration of solar panels or structures. Some embodiments include a wire guide assembly which is configured to route electrical wiring from an upper solar panel or structure to at least partially beneath a lower solar panel or structure, so as to at least partially retain the electrical wiring during translation of the upper solar panel or structure relative to the lower solar panel or structure, thereby to avoid wiring entanglement and/or damage to the lower solar panel or structure in use.

SOLAR CELL MODULE INSULATION FILM, INSULATION FILM WITH STEEL SHEET, INSULATION FILM WITH WIRING SHEET, AND SOLAR CELL MODULE

Resumen de: US20260068334A1

Provided is a solar cell module insulation film disposed between a solar cell and a steel sheet in a solar cell module, the solar cell module insulation film including: a sealing material layer, an insulating substrate, and a polyethylene-based resin layer, in this order, wherein the polyethylene-based resin layer is a polyethylene film; and a wetting tension of a surface of the polyethylene-based resin layer that is opposite side to the insulating substrate is 36 dyne/cm or more.

System

Resumen de: US20260066837A1

A system includes a processor that measures an angle of the sun, measures a light intensity, acquires weather information, measures a wind speed, receives data obtained from the foregoing measurements and acquisitions, analyzes the data, generates a control command to optimally adjust an orientation, angle, and area of a solar panel based on a result of analyzing the data, and physically adjusts the solar panel based on the control command.

VEHICLE, COOLING METHOD, AND STORAGE MEDIUM

Resumen de: US20260066846A1

A vehicle includes a solar panel that is provided on a top portion of a vehicle body, and a protruding portion that is provided forward of the solar panel on the vehicle body. The protruding portion has a shape that is tapered forward in a front-rear direction of the vehicle body.

COVER ATTACHMENT STRUCTURE

Resumen de: US20260066843A1

A cover attachment structure partially covers a solar panel unit including a solar panel and a frame from outside with a cover. A cover receiving member receives, from below, the frame supporting the solar panel, with a receiving portion at an end thereof closer to inside with respect to an inside-outside direction. A cover hold down member holds down the frame from above with a hold down portion at an end thereof closer to the inside with respect to the inside-outside direction. The cover is attached to the solar panel unit with the cover receiving member and the cover hold down member. The cover hold down member is placed on the cover such that a length from the receiving portion to the hold down portion is adjustable.

FIRE PROTECTION SYSTEMS FOR ROOFTOP SOLAR PANEL INSTALLATIONS, METHODS AND WATER SPRAY NOZZLES THEREFOR

Resumen de: US20260048287A1

Fire protection systems for a rooftop solar panel installation with solar panels. The fire protection system has a group of water spray nozzles with a metric K-factor of 20 or less to discharge firefighting fluid to a coverage area of the rooftop solar panel installation, a fluid pipe system connecting the group of water spray nozzles to a fluid supply for providing firefighting fluid, a fire hazard detection system with at least one fire hazard detector configured to monitor the coverage area, and at least one detection control unit to generate an alarm signal upon detection of a fire hazard within the coverage area, a valve unit configured to control passage of the firefighting fluid from the fluid supply, wherein the coverage area is at least 500 m2, and the group of water spray nozzles is configured to discharge the firefighting fluid received from the fluid supply to the coverage area with a normalized fluid application rate of 15 mm/m2/min or less.

ELECTRICAL POWER SUPPLY DEVICE, MOTORIZED DRIVE DEVICE COMPRISING SUCH AN ELECTRICAL POWER SUPPLY DEVICE, AND ASSOCIATED CONCEALMENT DEVICE

Resumen de: US20260066836A1

An electrical power supply device comprises a casing, a photovoltaic panel, which is fixed on the casing, and a fixing device, which comprises a fixing support, a holding device and a cover. The support comprises a plurality of first locking elements. The holding device comprises at least one second locking element, which cooperates with one of the first locking elements. The holding device is fixed on the cover. The cover is fixed removably on the casing. Furthermore, the support is arranged between the casing and the cover, so as, on the one hand, to be able to slide the support between the casing and the cover and, on the other hand, to hold the support in position by the holding device.

INVERTER SYSTEM AND METHOD FOR OPERATING SAID INVERTER SYSTEM

Nº publicación: US20260066675A1 05/03/2026

Solicitante:

FRONIUS INT GMBH [AT]
Fronius International GmbH

Resumen de: US20260066675A1

The present invention relates to an inverter system (INV) for a photovoltaic system and to a method for operating the inverter system (INV). The inverter system (INV) comprises an inverter unit (WE), ), to which a predetermined number of DC-to-DC converters (B1, . . . , B4) is connected upstream via an intermediate circuit (ZK). The DC inputs (DC1, . . . , DC4) of the inverter system (INV) are formed by the DC-to-DC converters (B1, . . . , B4), which predetermines the number and properties of the DC inputs (DC1, . . . , DC4). The DC inputs (DC1, . . . , DC4) are connected to different direct-voltage units (PV1, PV2, BAT, EC, GE, VB), in particular PV units, energy storage units, etc. A switching unit (SE), which comprises inputs (E1, . . . , E6) for connecting the direct-voltage units (PV1, PV2, BAT, EC, GE, VB), is connected to the DC inputs (DC1, . . . , DC4). The switching unit (SE) is thus arranged between the DC-to-DC converters (B1, . . . , B4) forming the DC inputs (DC1, . . . , DC4) and the direct-voltage units (PV1, PV2, BAT, EC, GE, VB) which are connectable to the switching unit (SE). The different direct-voltage units (PV1, PV2, BAT, EC, GE, VB) connected to the inputs (E1, . . . , E6) are identified (101, 102), and for each direct-voltage unit (PV1, PV2, BAT, EC, GE, VB) connected to an input (E1, . . . , E6) of the switching unit (SE) a current value of at least one power variable is determined (103). The determined current value of the at least one power variab