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154
resultados
Última actualización
26/11/2025 [06:58:00]
Resumen de: FR3162331A1
Titre : Chargeur rapide avec refroidissement liquide, sans bruit, pour véhicule électrique L’invention a pour objet une installation (1) à production d’énergie configurée pour être installée notamment sur un sol, notamment sur un parking, et comportant un pilier central (2) configuré pour porter au moins un toit (3) pourvu d’au moins un panneau solaire (4), et le toit comporte deux parties du toit (200), notamment disposées en Y, qui sont jointives avec la poutre longitudinale, de manière étanche. Figure pour l’abrégé : Fig. 19
Resumen de: FR3162329A1
L’invention concerne un dispositif de fixation de panneaux photovoltaïques sur une tôle nervurée comportant au moins une nervure (2), un corps principal (3) ouvert aux extrémités et en partie supérieure dont le fond (5) est de forme complémentaire au sommet (10) de la nervure (2) de la tôle, caractérisé en ce que le fond (5) du corps principal (3) est pourvu d’au moins une ouverture (11) définissant un accès à l’intérieur du corps principal (3).l’invention concerne aussi un bâtiment équipé d’au moins une tôle nervure pourvue d’un tel dispositif. Figure à publier avec l’abrégé : Fig.1
Resumen de: FR3162330A1
Titre : Chargeur rapide avec refroidissement liquide, sans bruit, pour véhicule électrique L’invention a pour objet une installation (1) (1) à production d’énergie configurée pour être installée notamment sur un sol, notamment sur un parking, et comportant un pilier central (2) configuré pour porter au moins un toit (3) pourvu d’au moins un panneau solaire (4), le toit comportant au moins un canal de circulation d'air s’étendant au moins partiellement sous le panneau solaire pour permettre à l’air dans le canal d'être chauffé par la chaleur dégagée par le panneau solaire, et le toit est configuré de sorte que la récupération de chaleur se fait avec un écoulement d’air dans le sens de la largeur des panneaux (4), perpendiculairement au sens du courant électrique traversant des cellules photovoltaïques du même panneau.. Figure pour l’abrégé : Fig. 19
Resumen de: FR3162322A1
Titre : Chargeur rapide avec refroidissement liquide, sans bruit, pour véhicule électrique L’invention a pour objet une installation (1) à production d’énergie configurée pour être installée notamment sur un sol, notamment sur un parking, et comportant un pilier central (2) configuré pour porter au moins un toit (3) pourvu d’au moins un panneau solaire (4), et le pilier (2) loge un réservoir central (270), notamment pour la récupération de l'eau de pluie. Figure pour l’abrégé : Fig. 19
Resumen de: WO2025240666A1
An in-situ method for measuring the power delivery performance of a bifacial photovoltaic device installed in the field. The method utilizes a substantially non-reflective material layer applied to the rear side of the bifacial photovoltaic panel to minimize or eliminate the contribution from irradiance directed to the rear side of the bifacial photovoltaic panel. The use of the substantially non-reflective material layer on the rear side of the panel enables in situ measurements of the power delivery performance of field installed photovoltaic panels that more closely approximates the power delivery performance of the front side of the photovoltaic panel.
Resumen de: WO2025240788A1
A roofing system including a plurality of photovoltaic modules installed on a roof deck, where each of the photovoltaic modules includes at least one solar cell, and a plurality of metal roofing shingles installed on the roof deck adjacent the plurality of photovoltaic modules, where the plurality of metal roofing shingles includes at least a first metal roofing shingle and a second metal roofing shingle, where each of the metal roofing shingles includes a first layer that includes a metal material, and a second layer that includes a polymer material, where the second layer includes a nail zone with a plurality of fasteners extending therethrough, fastening the metal roofing shingle to the roof deck, where the second layer is between the roof deck and the first layer.
Resumen de: WO2025239957A1
A clamp includes a connector, a bracket, and a slide. The connector is disposed through a barrier, and attaches to a solar panel module or a frame of the solar panel module. The bracket has a channel through which at least a portion of the connector is disposed. The slide that is transitionable between a first position in which the connector is unsecured to the bracket, and a second position in which the connector is secured to the bracket.
Resumen de: WO2025237511A1
The invention relates to a solar array (1) for attachment on an associated spacecraft (3). The solar array is deployable from stowed configuration in which it forms a rectangular block to deployed configuration in which it forms a supported, and preferably pretensioned, surface with polygonal circumference (4). The solar array comprises first and second pressure plates (6,7), a plurality of carrier segments (5) including at least one panel or membrane onto which a photovoltaic network is mounted, a plurality of spoke assemblies (8) carrying the carrier segments, and a deployment actuator (11). Upon activation, the deployment actuator moves the spoke assemblies and the carrier segments into the deployed configuration of the solar array.
Resumen de: DE102024001567A1
Befestigungsvorrichtung für ein oder mehrere Photovoltaik-Module mit einer Nachführeinrichtung, vorzugsweise aber nicht ausschließlich in 2 Achsen (Fig.1) geeignet verbunden vorzugsweise aber nicht ausschließlich mit einer Klemmschelle mit Verschraubung (2), geeignet verbunden mit einem festen Ausleger (3) und einem drehenden Ausleger (4), angetrieben durch Aktuatoren, vorzugsweise aber nicht ausschließlich Linearmotoren (5,6), wobei die Befestigung der Solar-Paneelen (12) mittels Befestigungshalter (11) und Befestigungsschienen (10) auf einem Aufnahmerahmen (9) erfolgt, vorzugsweise auf einen Baum montiert.
Resumen de: DE102024113714A1
Hybrides Solarmodul (1) aufweisend einen mehrschichtigen Aufbau, wobei der mehrschichtige Aufbau zumindest ein Deckelement (2) aus Glas, zumindest ein Photovoltaik-Element (3), umfassend eine Vielzahl von Solarzellen (4) und zumindest ein Grundelement (5) umfasst, wobei das hybride Solarmodul (1) zumindest einen Kanal (6) für ein Wärmeträgermedium aufweist, dadurch gekennzeichnet, dass der zumindest eine Kanal (6) als Hohlraum innerhalb des Grundelements (5) und/oder des Deckelements (2) ausgebildet ist und einen Einlass (11) und einen Auslass (12) aufweist.
Resumen de: WO2025240183A1
Apparatus and associated methods relate to a modular energy conversion system (MECS). In an illustrative example, the MECS may include a distributed power converter having a first and second subsets of hybrid converter modules (HCMs). For example, output ports of the first subset of HCMs may be electrically connected in series to form an upper arm, and the output ports of the second subset of HCMs may be electrically connected in series to form a lower arm. The upper and lower arms may be electrically connected at a first end to form a connection point. A unipolar voltage source may be electrically connected to an opposite end of the connection point of the upper and lower arms. A power combiner unit (ECU) may be physically separated from and electrically connected to the connection point. For example, the PCU may be configured to measure electrical property at the connection point and adaptively regulate AC power generated at the connection point based on the measured electrical property. Various embodiments may advantageously enable efficient integration of distributed renewable energy sources and energy storage while providing power scaling through a modular architecture.
Resumen de: DE102024114006A1
Die Erfindung geht aus von einer Solarmodulbefestigungsvorrichtung mit einer Solarmodulbefestigungseinheit, zur Anbindung zumindest eines Solarmoduls (12, 14), mit zumindest einer rotierbaren Befestigungsachse (20), an der zumindest die eine Solarmodulbefestigungseinheit angebunden ist, mit einer Antriebseinheit (22), die zum Antrieb der Befestigungsachse (20) vorgesehen ist, und mit einem Steuerungsmodul (24), das zumindest ein Steuerungsmodulgehäuse (26) und eine in dem Steuerungsmodulgehäuse (26) angeordnete Steuereinheit (32) zur Steuerung der Antriebseinheit (22) aufweist.Es wird vorgeschlagen, dass das Steuerungsmodul (24) ein in dem Steuerungsmodulgehäuse (26) angeordnetes Batteriefach (36) aufweist, das zur wechselbaren Aufnahme einer elektrischen Batterie (38) vorgesehen ist.
Resumen de: WO2025237444A1
The present application relates to a photovoltaic module and a photovoltaic power generation system. The photovoltaic module comprises a laminated member, and a first frame and a second frame that are located on the laminated member. The photovoltaic module has a second frame direction perpendicular to the second frame. An overlapping region is provided in the second frame direction, and the overlapping region is configured to overlap with other adjacent photovoltaic modules and/or cement tiles in the second frame direction. The second frame is provided with a connecting structure connected to the other adjacent photovoltaic modules and/or cement tiles, and the connecting structure is configured to be used for mounting a connecting member connected to the other adjacent photovoltaic modules and/or cement tiles.
Resumen de: WO2025237442A1
The present application relates to a photovoltaic tile fixing structure, a photovoltaic tile assembly and a roof photovoltaic system. The photovoltaic tile fixing structure comprises: a fixing member configured to be mounted on an attachment surface; an assembly member connected to one end of the fixing member, wherein an accommodating cavity is provided in the assembly member, and is configured to allow a frame of a photovoltaic tile to be embedded therein; and an anti-disengagement mechanism, which is arranged on the fixing member and/or a cavity wall of the accommodating cavity, and is configured to prevent the frame from disengaging.
Resumen de: WO2025237441A1
The present application relates to a photovoltaic tile and a photovoltaic paving structure. The photovoltaic tile comprises a photovoltaic laminate, frames and connection accessories, wherein the frames are mounted on sides of the photovoltaic laminate; and the connection accessories are detachably mounted on the sides of the frames away from the photovoltaic laminate, and are configured to be connected to flat tiles adjacent to the photovoltaic tile, and/or configured to connect two adjacent photovoltaic tiles.
Resumen de: WO2025237443A2
The present application relates to a photovoltaic tile mounting structure, a photovoltaic tile assembly and a roof photovoltaic system. The photovoltaic tile mounting structure comprises: a first frame configured to be combined with a second structural member; the second structural member configured to be detachably connected to an attachment surface, wherein the second structural member is provided with a second snap-fit portion detachably connected to the attachment surface; and a first limiting member, which penetrates the first frame from outside to inside, and is configured to maintain a connection state between the second snap-fit portion and the attachment surface.
Resumen de: WO2025237430A1
The present application relates to a wide-band-gap perovskite solar cell, a perovskite/crystalline silicon laminated cell and an electric device. The wide-band-gap perovskite solar cell comprises a first electrode layer, an electron transport layer, a passivation layer, a perovskite light absorption layer, a hole transport layer, a buffer layer and a second electrode layer, which are stacked in sequence, wherein the materials of the passivation layer comprise a self-assembly monomolecular layer material and an additive, the additive comprising an organic ammonium salt containing a C6-C10 aromatic ring or a 5-10-membered aromatic heterocycle.
Resumen de: WO2025237162A1
Embodiments of the present application provide a photovoltaic conversion system and an isolator switch. The photovoltaic conversion system comprises an isolator switch and DC-DC conversion circuits; the isolator switch is adapted to be separately connected to the DC-DC conversion circuits and multiple photovoltaic cells; each photovoltaic cell comprises a photovoltaic module, a photovoltaic string formed by connecting multiple photovoltaic modules in series, or a photovoltaic array formed by connecting multiple photovoltaic modules in series and parallel; the isolator switch comprises multiple switch poles; each switch pole comprises two contact assemblies that are electrically isolated from each other; each contact assembly is configured to connect a DC-DC conversion circuit and at least one photovoltaic cell among the multiple photovoltaic cells; each contact assembly comprises a stationary contact and a movable contact, and the stationary contact and the movable contact can come into contact with or be separated from each other to control the closing or opening of the contact assembly; all contact assemblies within the isolator switch are simultaneously closed or opened. The solution in the embodiments of the present application can meet requirements of a photovoltaic system without increasing the number of switch poles of the isolator switch.
Resumen de: WO2025236946A1
The present application relates to the technical field of photovoltaics, and discloses a solar cell and a photovoltaic module. The solar cell comprises: a cell body, wherein the width of the cell body is L1 in a first direction; and a pattern area, which is provided on the surface of the cell body, wherein a plurality of current collector electrodes extending in a second direction are provided in the pattern area, the current collector electrodes comprise first current collector electrodes and second current collector electrodes, the first current collector electrodes and the second current collector electrodes are arranged at intervals in the first direction, and the second direction is different from the first direction. The cell body comprises a first side edge and a second side edge opposite to each other, the first side edge and the second side edge each comprise a part extending in the second direction, and the distance between the position of the pattern area close to the first side edge and the first side edge is D1; when the polarities of the first current collector electrodes and the second current collector electrodes are opposite, 80≤L1/D1≤400, and/or when the polarities of the first current collector electrodes and the second current collector electrodes are the same, 50≤L1/D1≤350.
Resumen de: WO2025237083A1
An organic compound, an electroluminescent device, and a display apparatus, relating to the technical field of display. The organic compound has a structural formula as shown in general formula I, wherein L1 and L2 are each independently selected from a substituted or unsubstituted C6-C36 arylene group, or a substituted or unsubstituted C2-C36 heteroarylene group, and m and n are each independently selected from integers of 0 to 4.
Resumen de: WO2025236976A1
Disclosed in the present application is a photovoltaic module, comprising a reflective structure and a cell string group, wherein the cell string group comprises a plurality of cells, and gaps are provided between the plurality of cells; the orthographic projection of the reflective structure on the cell string group covers at least the gaps between the plurality of cells; and the reflective structure comprises a first reflective layer close to the cells and a second reflective layer stacked with the first reflective layer, the first reflective layer is an organic material layer, and the second reflective layer is a metal layer. In the embodiments of the present application, infrared light that is incident on the gaps between the plurality of cells is reflected by the reflective structure, so that the infrared light re-irradiates the cells, enabling the cells to absorb the infrared light and convert same into electric energy, thereby increasing the generation power of the photovoltaic module.
Resumen de: WO2025236545A1
The present application discloses an acoustic dust removal apparatus for a solar photovoltaic panel, comprising a moving part, wherein the moving part is mounted on a solar photovoltaic panel, a support is connected onto the moving part, cleaning parts are connected onto the support, and an air source adjusting part is connected to the cleaning parts; the cleaning parts are opposite to the solar photovoltaic panel, and the cleaning parts are used for discharging acoustic waves and conveying flows to remove dust from the surface of the solar photovoltaic panel. In this apparatus, dust is removed from the surface of the solar photovoltaic panel by means of acoustic waves and air flows discharged from the cleaning parts, wherein the acoustic waves can effectively vibrate and loosen dust and dirt attached to the surface of the solar photovoltaic panel, and the air flows can rapidly blow the loosened dust and dirt away, thereby achieving efficient cleaning of the surface of the solar photovoltaic panel.
Resumen de: WO2025236386A1
Disclosed in the present invention is a supporting frame convenient to disassemble and assemble, comprising: connecting components, which each comprise a first connecting member provided with a first cylindrical slot in each side surface, and two second connecting members respectively arranged above and below the first connecting member, wherein the two second connecting members are each provided with a second cylindrical slot, first bolt through holes are formed in four side walls of each of the first cylindrical slots and the second cylindrical slots, and after horizontal rods are inserted into the first cylindrical slots and vertical rods are inserted into the second cylindrical slots, by finely adjusting first bolts in the first bolt through holes, the horizontal rods are kept level and the vertical rods are kept plumb. The supporting frame further comprises reinforcing members, wherein each first inclined reinforcing member and a corresponding second inclined reinforcing member are arranged crossing each other, and semicircular grooves are provided at two ends of each first inclined reinforcing member and two ends of each second inclined reinforcing members. The supporting frame is convenient to assemble, can achieve adjustment of the levelness of the horizontal rods and the plumbness of the vertical rods, is also convenient to disassemble, and is time-saving and labor-saving.
Resumen de: WO2025236604A1
Embodiments of the present invention relate to the technical field of quantum measurement, and provide a solar panel defect detection method and system based on quantum measurement. The detection method comprises: acquiring three-dimensional surface magnetic field data of a solar panel by means of a preset quantum scanning device; performing a detection plane standardization operation on the three-dimensional magnetic field data to obtain a magnetic field plane graph; and inputting the magnetic field plane graph into a preset network model to determine a defect type of the solar panel. By means of the technical solution above, the present invention provides a solar panel defect detection method and system based on quantum measurement. In the detection method and system, a magnetic field on the surface of a solar panel is collected in a quantum measurement mode, and defect detection of the solar panel in a non-electrical connection state is achieved by combining processing of the magnetic field and recognition of a network model. Compared with the prior art, the detection method and system provided in the present invention improve the detection efficiency and precision.
Nº publicación: WO2025236039A1 20/11/2025
Solicitante:
PROA HOLDINGS PTY LTD [AU]
PROA HOLDINGS PTY LTD
Resumen de: WO2025236039A1
The embodiments of the invention relates to monitoring system and methods for environmental monitoring at a solar farm site, the system comprising a self-contained environment monitoring system being locatable within a predefined vicinity of the solar farm site, the system comprising: a monitoring solar panel; a panel control system for controlling the monitoring solar panel; a monitoring sensing system comprising one or more sensors wherein at least one of the sensors is a monitoring sensor configured to monitor the solar panel, the monitoring sensor configured to generate a condition signal indicative of the condition of the solar panel; and a condition processing system configured to: monitor the condition signal of the monitoring sensor; and determine a condition of the solar farm site based on the condition signal. Further embodiments of the invention relate to a self-containing monitoring apparatus for carrying out the systems and methods, and which comprise a solar panel assembly, mast assemblies and an apparatus body for containing solar panel assembly, mast assemblies and other components.
BOPI
Sede Electrónica
