Energía solar fotovoltaica

Dispositif de connexion électrique

Resumen de: FR3162934A1

L’invention concerne un dispositif de connexion électrique (1) entre une pièce (2) et un tronçon de câble (3). Le dispositif de connexion électrique (1) est particulier en ce qu’il comporte :- une section (4), configurée pour recevoir ladite pièce (2), et assurer une fixation entre ledit dispositif (1) et ladite pièce (2), ladite section (4) comportant deux moyens de connexion électrique (5) entre ladite pièce (2) et ledit dispositif (1),- un moyen de maintien (6) dudit tronçon de câble (3) dans la section (4), et- un moyen de poinçonnage (7) configuré pour pouvoir être mis dans une position de connexion, dans lequel il pénètre le cœur du câble (3). L’invention concerne également un ensemble comportant un dispositif (1), une pièce (2) et un tronçon de câble (3), et un procédé de connexion entre une pièce (2) et un tronçon de câble (3) au moyen d’un dispositif (1). Figure pour l’abrégé : Fig 6

Ensemble de couverture pour couvrir une toiture d’un premier module de construction.

Resumen de: FR3162954A1

Ensemble de couverture (1) pour couvrir au moins un premier module de construction (10) ayant une toiture (10a), l’ensemble de couverture (1) comportant : - un premier panneau photovoltaïque (Pv1) pour capter de l’énergie solaire ; - un premier support (S1) du premier panneau photovoltaïque (Pv1), le premier panneau (Pv1) définissant une partie d’une surface de couverture au-dessus de la toiture (10a). Le premier support (S1) comporte une pluralité de poteaux (S1a, S1b, S1c, S1d) pour supporter le premier panneau (Pv1), un garde-corps (G) porté par certains au moins des poteaux (S1a, S1b, S1c, S1d) présente une lisse supérieure (G1) définissant une limite périphérique d’une zone centrale (Zc) de captation d’énergie où se trouve le premier panneau photovoltaïque (Pv1). FIGURE DE L’ABREGE : Fig. 1a

Procédé d'alerte en cas de défaillance d'un dispositif de production d'énergie et dispositif électronique associé

Resumen de: FR3162875A1

Procédé d'alerte en cas de défaillance d'un dispositif de production d'énergie et dispositif électronique associé L’invention concerne un procédé d'alerte mis en œuvre par un dispositif électronique de supervision (200) connecté à un ou plusieurs dispositifs de production d'énergie (100). Le procédé comprend : une détermination, par un modèle de classification de cause de déviations prenant en entrée un historique de déviations entre une valeur représentative d'une prédiction d'une quantité d'énergie produite par ce ou ces dispositifs de production d'énergie et une valeur représentative d'une quantité d'énergie effectivement produite par ce ou ces dispositifs de production d'énergie, d’une occurrence d’une défaillance d'au moins un composant du ou des dispositifs de production d'énergie ; et une génération d'une alerte selon laquelle au moins un composant du ou des dispositifs de production d'énergie est défaillant. Figure pour l’abrégé : Fig. 1A.

HYDROFORMED CYLINDRICAL PILES

Resumen de: US2025369654A1

A ground pile for a solar tracking system includes an elongate hollow tube extending longitudinally from a first end to a second end, one or more pair of support blades formed along the elongate hollow tube and extending away from a longitudinal axis of the elongate hollow tube. The one or more pair of support blades being formed by a hydroforming process.

SPHERICAL WIND TURBINE WITH DIMPLES

Resumen de: US2025369419A1

Disclosed systems and devices relate to generating energy using spherical wind turbines with dimples. The systems, devices, and methods described herein relate to a wind turbine with no blades or propellers. Currently, wind turbines with blades or propellers can have their functionality impaired by the presence of dust, soot, or ash particles in the air. This makes it difficult to operate current wind turbines in certain harsh environments. In this device, a spherical shell entirely encapsulates the generator, such that dust, soot, or ash particles do not interfere with the turbine. In some embodiments, the dimples capture wind to rotate the spherical shell. In some embodiments, the outer surface of the spherical shell is covered with flexible solar cells. In some embodiments, the flexible solar cells sit inside the dimples.

ORGANIC ELECTROLUMINESCENT DEVICES

Resumen de: US2025374789A1

Full-color pixel arrangements for use in devices such as OLED displays are provided, in which multiple sub-pixels are configured to emit different colors of light, with each sub-pixel having a different optical path length than some or all of the other sub-pixels within the pixel.

COMPOUND, ORGANIC ELECTROLUMINESCENT ELEMENT MATERIAL, ORGANIC ELECTROLUMINESCENT ELEMENT, AND ELECTRONIC DEVICE

Resumen de: US2025374825A1

A compound for further improving the capability of an organic EL device, an organic electroluminescent device having a further improved device capability, and an electronic device including such an organic electroluminescent device, in which the compound has formula (1):wherein N*, *a1, *a3, *b1, m, n, R1A to R5A, R1B to R5B, R11B to R14B, R21A to R25A, R21B to R24B, L, Ar1, Ar2, and Ar3 are as defined in the description, the organic electroluminescent device is an organic electroluminescent device including the compound, and the electronic device is an electronic device including such an organic electroluminescent device.

PORTABLE COMMUNICATION ASSEMBLY

Resumen de: US2025373276A1

An apparatus and method for providing a portable communication is disclosed wherein the apparatus comprises a field locatable communication body, at least one deployable leg operable to support the communication body at a location, a selectably extendable mast having a communication transmitter assembly supported from the communication body and at least one selectably deployable solar panel supported from the communication body. The method comprises locating the communication body at a desired location, extending at least one deployable leg from the communication body into contact with a supporting ground surface so as to support the communication body, a selectably extendable mast having a communication transmitter assembly supported from the communication body and a selectably deployable solar panel supported from the communication body.

CLAMP FOR SECURING A SOLAR PANEL MODULE

Resumen de: US2025373191A1

A clamp includes a mount, a connector, and a fastener. The mount has a slot and a channel. The connector attaches to the mount and is transitionable between a first position and a second position in which a solar panel module is securable to the mount. The connector has a post at least partially disposed in the channel and which traverses within the channel between the first position and the second position of the connector. The fastener is disposed at least partially in the slot for attaching the connector to the mount. The fastener tightens to secure the solar panel module to the mount.

SOLAR ENERGY STORAGE AND AQUIFER MANAGEMENT

Resumen de: US2025373200A1

A solar energy storage management system includes a solar thermal collection unit, a photovoltaic pre-heating system, and heat exchanger. The solar thermal collection unit collects incident radiation and adds heat into a heat transfer fluid. The first photovoltaic pre-heating system pre-heats a spent stream from a utilization facility. The heat exchanger conveys heat from the heat transfer fluid and pre-heated stream to a storage stream for output to an aquifer thermal storage system. A method for managing solar energy storage and production includes collecting incident radiation with a solar thermal collection unit, adding heat into a heat transfer fluid, and conveying the heat transfer fluid to a heat exchanger for later storage of thermal energy in an aquifer thermal storage system. Systems and methods monitor heat storage and operational characteristics of the aquifer thermal storage system.

MOBILE SOLAR POWER UNIT CONTROL SYSTEM

Resumen de: US2025373043A1

A mobile solar power unit control system providing power to an associated equipment item comprising: at least one mobile solar power unit comprising an assembly of inter-connected solar collector panels; an energy storage module connected to receive power from the assembly of inter-connected solar panels; and a control system for controlling operation of both the energy storage module and associated equipment item. The control system comprises a local controller onboard or proximate the at least one mobile solar power unit and a remote controller, communicable with the local controller, located remotely from said at least one mobile solar power unit. The mobile solar power unit conveniently provides power for an associated equipment item and any selected auxiliary loads located in an off-grid location.

PHOTOVOLTAIC ASSEMBLIES WITH CURRENT PROBES

Resumen de: US2025373199A1

A solar energy system comprises an inverter, an array of PV assemblies, and a set of current-probe assemblies installed in PV assemblies. Each PV assembly comprises a pivotable group of PV panels, a drive system comprising an electric motor and a gearing arrangement, and electronic circuitry comprising a communications arrangement and operative to regulate operation of the electric motor. The PV panels are connected electrically to form a plurality of strings in at least indirect electrical communication with the inverter. At least one string comprises PV panels of different PV assemblies. At least one current-probe assembly is placed in each of the plurality of strings, and each current-probe assembly is operative to measure a direct current value in a respective string.

SHEET METAL SOLAR MODULE FRAMES

Resumen de: US2025373196A1

A solar module frame assembly includes first and longitudinal frame portions and first and second lateral frame portions. The first and second longitudinal frame portions can include an intermediate wall, a photovoltaic receptacle at one end portion of the intermediate wall, and a lower wall potion at another, opposite end portion of the intermediate wall. The lower wall portion of each of the first and second longitudinal frame portions can include one or more connecting tabs. The first and second lateral frame portions can include a vertical or skewed intermediate wall, a photovoltaic receptacle at one end portion of the vertical or skewed intermediate wall, and a base at another, opposite end portion of the vertical or skewed intermediate wall. The vertical or skewed intermediate wall can include one or more connecting tabs that are configured to engage with corresponding aperture(s) at the adjacent first and second longitudinal frame portions.

SOLAR MODULE FRAME COUPLING ASSEMBLIES

Resumen de: US2025373195A1

A method for coupling a solar module frame to a torque tube of a solar tracker using a hooked flange solar module frame coupling apparatus includes: positioning a hook portion the of frame component relative to a frame receiving receptacle at a rail; moving the hook portion of the frame from a biased, coupling configuration to a receptacle entry configuration via contact between the hook portion and the rail; and moving the hook portion from the receptacle entry configuration to the biased, coupling configuration to couple the frame to the rail.

Portable Solar Power Generation System

Resumen de: US2025373197A1

A portable solar power generation system comprising solar panels and batteries is fitted with a combiner box, charge controller, and an inverter and uses intermodal frame racks configured to be compatible with ISO shipping container conventions to provide a base load, average daily demand, or peak load when combined with an integrated power storage system for residential, commercial and power utility use to allow for flexibility in transportation from one location to another. In use, the power generation system continuously adjusts in real time to capture the sun's radiance throughout the day. Stacking of multiple power generation systems facilitates transporting several systems simultaneously. Receptacle outlets within the power generation system allow for instant power upon delivery. The present invention offers a “move in” or “move out” power generation system within days and is simply scalable from one to thousands.

APPARATUS, SYSTEM, AND METHODS FOR SOLAR MOUNTING CLAMP AND/OR MOUNTING HOOK IN SOLAR RACKING SYSTEMS

Resumen de: US2025373192A1

An apparatus, system, and method of mounting a solar panel using a mounting clamp are described herein. A mounting clamp for mounting a structural member to a solar panel, the mounting clamp includes a body, at least one receiving slot in the body for receiving a flange of a solar panel, and a fastener attached to the body for connecting the mounting clamp, the solar panel, and the structural member. A system includes a structural member having at least one vertical component, at least one solar panel, and at least one mounting clamp for mounting the structural member to a solar panel. The mounting clamp includes a body, at least one receiving slot in the body for receiving a flange of a solar panel, and a fastener attached to the body for connecting the mounting clamp, the solar panel, and the structural member.

GROUNDING SYSTEM

Resumen de: US2025372990A1

A grounding system for a solar power generation facility includes a number of conductive mounting assemblies and a tension member in the form of a cable. A cable coupling of each of the conductive mounting assemblies is structured to engage and clamp the cable. The cable and each of the cable couplings has a conductivity level that is greater than a conductivity level of steel or galvanized steel, and the cable alone and respective combinations of the cable and each one of the cable couplings are each structured to provide at least a portion of a respective grounded current path of the grounding system that will be coupled to current wires and cable hangers that are supported by the cable.

APPARATUS, SYSTEM, AND METHODS FOR SOLAR MOUNTING CLAMP AND/OR AND MOUNTING HOOK IN SOLAR RACKING SYSTEMS

Resumen de: WO2025251086A1

An apparatus, system, and method of mounting a solar panel using a mounting clamp are described herein. A mounting clamp for mounting a structural member to a solar panel, the mounting clamp includes a body, at least one receiving slot in the body for receiving a flange of a solar panel, and a fastener attached to the body for connecting the mounting clamp, the solar panel, and the structural member. A system includes a structural member having at least one vertical component, at least one solar panel, and at least one mounting clamp for mounting the structural member to a solar panel. The mounting clamp includes a body, at least one receiving slot in the body for receiving a flange of a solar panel, and a fastener attached to the body for connecting the mounting clamp, the solar panel, and the structural member.

ABNORMAL POWER GENERATION DETECTION SYSTEM USING SOLAR POWER GENERATION TRACKING BASED ON SIMILAR PAST DATA AND METHOD THEREFOR

Resumen de: WO2025249941A1

The present invention relates to an abnormality detection method using solar power generation tracking based on similar past data. More particularly, the abnormality detection method using solar power generation tracking based on similar past data comprises the steps of: on the basis of past data including actually measured weather data and solar position data, extracting variable importance affecting a solar power generation amount; collecting, for an abnormal power generation detection target time point, target data including actually measured weather data, solar position data, and an actually measured power generation amount; calculating a weight for each variable on the basis of the extracted variable importance and calculating a similarity between the target data and the past data by considering the weight for each variable; predicting a power generation amount for the target data by extracting a preset number of pieces of past data in order of highest calculated similarity; and detecting abnormal power generation on the basis of an actually measured power generation amount at the abnormal power generation detection target time point and a power generation amount predicted for target data at a predicted abnormal power generation detection target time point.

BIPV MODULE

Resumen de: WO2025249647A1

The present invention relates to a BIPV module in which a plurality of solar modules are provided in a checkerboard shape on the outside of a roof or a wall, the BIPV module comprising: an outer frame of which the long axis length is in the vertical direction between the plurality of solar modules and which is provided on the outside of the roof or the wall; and a module frame which is coupled to four surfaces of the solar module, and which moves the solar modules to the front side by means of bolt fastening, wherein the module frame moves the solar modules to the front side such that the module frame comes into close contact with the outer frame.

INSTALLATION STRUCTURE FOR PHOTOVOLTAIC POWER GENERATION SHEET

Resumen de: WO2025249469A1

The purpose of the present invention is to provide an installation structure for a photovoltaic power generation sheet capable of suppressing the breakage of an installation surface due to the deformation of the photovoltaic power generation sheet. The present invention is an installation structure for a photovoltaic power generation sheet which comprises: an installation surface that has one or more recess portions and two or more protrusion portions, and that is disposed so that each of the recess portions and the protrusion portions are parallel to each other; a photovoltaic power generation sheet that is disposed so as to cross between the protrusion portions; a fixing member that fixes the photovoltaic power generation sheet to the protrusion portion; and a reinforcement material that bridges at least two of the protrusion portions and directly or indirectly supports the bridged protrusion portions.

HIGHLY LIGHT-TRANSMITTING RESIN, PREPARATION METHOD THEREFOR AND PACKAGING METHOD FOR PHOTOVOLTAIC MODULE

Resumen de: WO2025247297A1

The present invention relates to the field of photovoltaic module packaging materials, and provides a highly light-transmitting resin, a preparation method therefor and a packaging method for a photovoltaic module in order to solve the problems of poor mechanical strength and impact resistance of a packaging adhesive film in the prior art, which cannot satisfy the requirements of a lightweight photovoltaic module. The highly light-transmitting thermosetting resin is obtained by mixing a component A and a component B according to a mass ratio of 1: (0.8-1.2). In parts by weight, the component A comprises: 100 parts of an alicyclic epoxy resin, 0-15 parts of an alkyl-grafted epoxy resin, 10-35 parts of a filler, 10-25 parts of an epoxy diluent and 1-3 parts of an auxiliary; and the component B comprises: 90-100 parts of an anhydride curing agent and 1-5 parts of an accelerant. The resin has a good light transmittance, good impact resistance and weather resistance, and can protect the photovoltaic module for a long time in an outdoor environment.

PHOTOVOLTAIC MODULE

Resumen de: WO2025247237A1

The present application discloses a photovoltaic module, comprising: a plurality of cells, wherein each cell has a first side edge and a second side edge; the cell is provided with an electrode structure; the electrode structure comprises a plurality of fingers; the fingers are at least partially parallel to the first side edge; in an extension direction of the second side edge, two types of fingers having opposite polarities are alternately arranged; in an extension direction of the first side edge, each finger comprises a plurality of second notches and a plurality of connecting portions, the second notches and the connecting portions are arranged adjacent to each other, and the plurality of second notches divide the finger into a plurality of sections, wherein the second notches are of a discontinuous void structure; and a plurality of tabbing ribbons, wherein the tabbing ribbons are arranged in the extension direction of the second side edge and configured to connect adjacent cells in series, each tabbing ribbon is electrically connected to connecting portions of fingers having one polarity, and the tabbing ribbon is at least partially in contact with the surface of the cell at second notches of fingers having the other polarity. The present application can reduce the amount of insulating adhesive used, lower the insulating adhesive costs, and shorten processing time.

LIGHT-EMITTING MATERIAL, DISPLAY PANEL, AND DISPLAY APPARATUS

Resumen de: WO2025247351A1

The present disclosure relates to the field of organic electroluminescent materials, and relates to a compound and a use thereof as a light-emitting material, an organic electroluminescent device, a display panel, and a display apparatus. The compound provided by the present disclosure is a compound having a structural formula of formula (I), wherein the meaning of each group is the same as that defined in the description.

CLAMP FOR PHOTOVOLTAIC MODULE AND PHOTOVOLTAIC MODULE HAVING SAME

Nº publicación: WO2025247426A1 04/12/2025

Solicitante:

TRINA SOLAR CO LTD [CN]
\u5929\u5408\u5149\u80FD\u80A1\u4EFD\u6709\u9650\u516C\u53F8

Resumen de: WO2025247426A1

The present application relates to a clamp for a photovoltaic module and a photovoltaic module having same. The clamp comprises: a fixing plate, wherein the fixing plate is provided with a mounting hole for fixing the fixing plate on a preset mounting member; a connecting plate, wherein the connecting plate has a first end and a second end opposite to each other, the first end is connected to the fixing plate, and the connecting plate is provided with a stress relief hole; and a pressing plate, wherein the pressing plate is connected to the second end, and is configured to abut against a photovoltaic module when the fixing plate is fixed on the preset mounting member, so as to constrain the photovoltaic module between the pressing plate and the preset mounting member. The clamp in the present application can effectively release stress for fixing the photovoltaic module, thereby improving safety and the service life of the photovoltaic module.