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165
resultados
Última actualización
29/11/2025 [07:11:00]
Resumen de: WO2025242734A1
The invention relates to a fence (1) for protecting a planted area, comprising a plurality of glass elements (2) supported by vertical posts (3) mounted in or on an underlayer (4). Each glass element (2) includes one or more zones (5) that reduce sunlight permeability, each zone (5) comprising one or more bifacial solar cells. The total sunlight permeability through each glass element is within the range of 5-45%, enabling light transmission suitable for plant growth while generating solar energy. The fence may serve as a wind barrier and is optionally configured to attenuate noise using laminated glass, gas-filled cavities, or varying pane thicknesses. It may also supply power to agricultural systems such as irrigation or environmental sensors. The fence can include features such as non-vertical mounting, orientation-based zone distribution, and modular, replaceable panels tailored to crop type or seasonal conditions.
Resumen de: AU2024274785A1
Coupling assemblies for use with solar trackers include a housing, a bearing, and at least one hard stop. The housing includes a circular aperture and protruding members extending from the housing. The bearing fits within the circular aperture and rotate within the circular aperture of the housing. The bearing includes an aperture having the shape of the cross-section of a torque tube. The hard stop engages with the protruding members to limit rotation of the bearing and torque tube to a preconfigured articulation range. The housing may include opposing ball bearing paths disposed along an inner surface of the circular aperture, and hard stops at end portions of the opposing ball bearing paths. The bearing may include ball bearing races in an outer portion of the bearing. The coupling assembly may include ball bearings configured to move in the ball bearing paths and the ball bearing races.
Resumen de: WO2025243142A1
According to the invention, a bifacial photovoltaic panel, wherein the panel is mounted in slats, characterised in that a gap (4) is maintained between the outermost photovoltaic cells (2) of the panel (3) and the slats (1), in an area where the panel (3) is transparent, and below the panel (3) the slat (1) comprises a vertical body (1.2), from the lower part of which, on the side of the panel (3), a base wall (1.1) of rough surface extends at a distance of 1 to 2 times greater than the width of the gap (4) located above it, said base wall being parallel to the panel (3).
Resumen de: WO2025242889A1
A hatch (30) is provided thereon with a portable solar panel comprising a main panel body (2) having a sandwich structure (9) with an upper skin (10), a lower skin (11), and a core (12), for example a foam core or a honeycomb core. The panel further comprises four fitting members (5) arranged in a rectangular grid corresponding to a 20 ft. ISO freight container. Each fitting member is configured to cooperate with an ISO twist-lock coupling (20). The panel further comprises photovoltaic cells (6), electric cabling (7), power converters (8), and an electrical connector (14) which is connectable to an electrical grid and/or a remote consumer of the outputted electricity, e.g. via 380 V three-phase output electricity.
Resumen de: WO2025244632A1
A power generation device is provided. The power generating device includes a photovoltaic panel configured to generate a first type of electrical power, a power converter electrically coupled to the photovoltaic panel and configured to convert the first type of electrical power to a second type of electrical power for transmission to a grid and/or load, and at least one energy storage device electrically coupled to the power converter, the at least one energy storage device configured to store electrical energy provided by the power converter. The power generating device further includes at least one heat management component and at least one back housing physically attached to the photovoltaic panel and defining a space between the photovoltaic panel and the at least one back housing. The power converter, the at least one energy storage device, and the at least one heat management component are positioned in the space.
Resumen de: DE102024001710A1
Die Erfindung beschreibt ein ultraleichtes Photovoltaik-Thermie-Modul (PVT). Die Kühlung wird durch einen Wasserkasten (100), gebildet durch eine nicht profilierte Fläche (2) an der Oberseite und eine Vielzahl halblinsenförmigen Mulden (1) an der Unterseite. Die schmalen Stellen der Linden bilden an den Außenseiten durchgehende Umfassungsstellen (5). Die halblinsenförmigen Mulden bilden zusammenstoßend Längsnähte (8), welche gleichzeitig eine druckfeste, stabilisierende Verbindung zur Oberseite herstellen. Die Führung der Kühlflüssigkeit im Wasserkasten erfolgt mäanderförmig. Der Wasserkasten wird formschlüssig durch Verharzen (3) mit dem Photovoltaik-Modul verbunden.
Resumen de: DE102025119931A1
Verfahren zur Neuherstellung von wärmegedämmten Flachdächern mit verbessertem Brandschutz umfassend die Schritte:a) Bereitstellen einer Flachdachkonstruktion mit Dampfsperre, undb) Aufbringen einer intumeszierenden Dachabdichtung mittelbar oder unmittelbar auf eine Wärmedämmung, wobei die intumeszierende Dachabdichtung auf Basis von flüssigen Polymeren in flüssiger Form mit einem intumeszierende Additiv verwendet wird;d) Aufstellen eines Ständerwerk mit Photovoltaik-Anlage auf die intumeszierenden Dachabdichtung), dadurch gekennzeichnet, dass die intumeszierende Dachabdichtung (4) zweilagig in Kombination mit einem Flächengewebe als Armierungsgewebe appliziert wird, wobei die erste Lage der intumeszierenden Dachabdichtung (4) weniger Gew% Blähgraphit oder mehr Gew% Blähgraphit umfasst als die zweite Lage der intumeszierenden Dachabdichtung (4), jeweils bezogen auf das Gesamtgewicht des Flüssigkunststoffs.
Resumen de: DE102025111346A1
Es wird ein Montagesystem umfassend zwei Montageelemente (11) und ein Spannelement (12, 13) vorgeschlagen, wobei das Montagesystem an einer Überdachungsvorrichtung anbringbar ist und einen Bereich im Freien überdacht, wobei die zwei Montageelemente (11) voneinander getrennte Bauteile sind, wobei im zusammengebauten Zustand des Montagesystems die zwei Montageelemente (11) bezogen auf eine Spannrichtung des Montagesystems voneinander in einer horizontalen Richtung beabstandet sind, wobei das Spannelement (12, 13) zwischen den zwei Montageelementen (11) verläuft und wobei das Spannelement (12, 13) an den zwei Montageelementen (10, 11) abgestützt ist, wobei das jeweilige Montageelement (11) an einem Stützorgan (6) einer Überdachungsvorrichtung lösbar fest anbringbar ist, und wobei das Montagesystem ein Anbringelement, ein Solar-Flächenelement und ein Solarmodul umfasst, wobei das Anbringelement auf das Spannelement (12, 13) derart abgestimmt ausgebildet ist, dass das Solar-Flächenelement, das mit dem Anbringelement verbunden ist, an dem Spannelement (12, 13) anbringbar ist, wobei auf dem Solar-Flächenelement das Solarmodul angebracht ist.
Resumen de: DE102025119929A1
Verfahren zur Sanierung von wärmegedämmten Flachdächern umfassend den Schritt Aufbringen einer intumeszierenden Dachabdichtung (4) auf eine Flachdachkonstruktion mit Dampfsperre (1), Wärmedämmung (2) und Abdichtung auf Basis von Abdichtungsbahnen (3), wobei die intumeszierende Dachabdichtung (4) 2 bis 15 Gew%, vorzugsweise 3 bis 9 Gew%, besonders bevorzugt 4 bis 8 Gew% Blähgraphit bezogen auf das Gesamtgewicht des Flüssigkunststoffs enthält, wobei das Aufbringen der intumeszierenden Dachabdichtung (4) in flüssiger Form erfolgt dadurch gekennzeichnet, dass die intumeszierende Dachabdichtung (4) zweilagig in Kombination mit einem Flächengewebe als Armierungsgewebe appliziert wird, wobei die erste Lage der intumeszierenden Dachabdichtung (4) weniger Gew% Blähgraphit oder mehr Gew% Blähgraphit umfasst als die zweite Lage der intumeszierenden Dachabdichtung (4), jeweils bezogen auf das Gesamtgewicht des Flüssigkunststoffs
Resumen de: DE102025119691A1
Die Erfindung betrifft eine Vorrichtung zur Gewinnung von Wasserstoff, die wenigstens die folgenden Merkmale aufweist:a) eine Trägervorrichtung,b) mehrere in einer vorbestimmten geometrischen Anordnung an der Trägervorrichtung befestigte Photovoltaikmodule,c) eine Energiespeichervorrichtung zur Speicherung der von den Photovoltaikmodulen erzeugten elektrischen Energie,d) eine Auffangvorrichtung zum Auffangen von Regenwasser und einen mit der Auffangvorrichtung verbundenen Wasservorratsbehälter, in dem aufgefangenes Regenwasser speicherbar ist,e) eine Elektrolysevorrichtung, der Wasser aus dem Wasservorratsbehälter und elektrische Energie aus der Energiespeichervorrichtung zuführbar ist, wobei die Elektrolysevorrichtung dazu eingerichtet ist, mittels der elektrischen Energie das zugeführte Wasser in gasförmigen Wasserstoff und Sauerstoff aufzuspalten und den Wasserstoff und Sauerstoff getrennt voneinander an jeweiligen Ausgangsanschlüssen bereitzustellen.
Resumen de: WO2025245436A1
Embodiments of the present disclosure are directed to an apparatus (also referred to as a T-bar, or torque-bar support) having an elongated, anodized tubular member (12) that attaches to a solar module frame (30). The tubular member (12) has one or more holes that align with holes (22) on the solar module frame (30). The T-bar apparatus (10) also includes a silicone gasket (14) to protect the glass (26) from damage and strengthen the amount of loading of the solar module (20). On the side of the tubular member (12), a preinstalled grounding washer (16) ensures that when installed the torque-bar support (10) is electrically grounded. A typical solar module (20) includes two or more T-bar supports (10) that are spaced apart and symmetrical to a center location of the solar module (20).
Resumen de: WO2025241858A1
A high-power solar photovoltaic power station capable of vehicle-mounted mobility and convenient to fold and unfold, characterized in that the high-power solar photovoltaic power station comprises a container (16), which is divided into a solar panel storage area (17) and a power distribution control area (18), wherein guide rails (19) for guided movement of solar panels (1) are provided on both the bottom and the top of the solar panel storage area (17), and limiting insertion holes are provided in the guide rails (19); and the solar panels (1) are fixed into supporting frames (2), upper parts of the adjacent supporting frames (2) are hinged and connected in pairs and lower parts thereof are connected to supports (9), all the supports (9) at the lower parts of the adjacent supporting frames (2) are sleeved on long bolts (7), nylon wheels (8) are mounted on the middle of the long bolts (7) and are supported on overhead slideways (6), and the lower parts of the adjacent supporting frames (2) that form an inverted-V shape are connected by means of steel wire ropes (12). The present invention is convenient to move, such that the problem of power shortage in remote regions can be solved.
Resumen de: WO2025241459A1
A perovskite photovoltaic module, a manufacturing method therefor and the use thereof, belonging to the technical field of perovskite solar cells. In the perovskite photovoltaic module, a planarization layer (22) is provided between adjacent encapsulation layers so as to enable the two adjacent encapsulation layers to envelope the planarization layer (22), thereby preventing moisture and oxygen from infiltrating through an interface between an outer encapsulation layer and a substrate of the perovskite solar cell (10) and affecting the encapsulation effect of the perovskite photovoltaic module. The planarization layer (22) formed by a curable adhesive having water content less than 100 ppm and a desiccant (23) can prolong the path for moisture and oxygen to enter the interior of the perovskite solar cell (10), thereby improving the encapsulation effect. Additionally, an encapsulation structure of the perovskite photovoltaic module is formed by means of mature processes, such that free moisture and oxygen components in the planarization layer are absorbed by the desiccant, thus preventing diffusion to other functional layers or devices.
Resumen de: WO2025245026A1
A method, including obtaining a plurality of components, including at least a frontsheet, solar cells, and a backsheet; positioning the plurality of components such that a first row of solar cells is above the backsheet, a second row of solar cells is above the backsheet, and the frontsheet is above at least one of the first row of solar cells or the second row of solar cells; and laminating the plurality of components to form a photovoltaic module. The photovoltaic module includes a first portion and a second portion, where the first portion of the photovoltaic module includes the first row of solar cells, where the second portion of the photovoltaic module includes the second row of solar cells, where the first portion of the photovoltaic module extends along a first plane, where the second portion of the photovoltaic module extends along a second plane, and where the second plane is offset from the first plane.
Resumen de: WO2025244297A1
The present invention relates to a solar power generation apparatus capable of, by collecting light regardless of the position of the sun and generating power with a plurality of solar panels arranged three-dimensionally, maximizing power production compared to the installation area, improving solar power generation efficiency, and generating more power even in a narrow place restricted by topographical factors or surrounding buildings and, more specifically, a solar power generation apparatus comprising: a light collecting unit (1) having an inner reflective surface (13) in an elliptical shape with both ends opened in the long axis direction; and a solar array unit (2) having an inner space surrounded by a plurality of solar panels (21) and connected to the light collecting unit (1) to generate power with sunlight incident through the light collecting unit (1).
Resumen de: WO2025244161A1
The present invention relates to a high-efficiency lighting device and, particularly, to a high-efficiency lighting device comprising: a lighting main body which has, therein, an LED module for emitting light downward, and into which air can be introduced from the outside and from which air can be discharged toward the outside; and a lighting heat power generation structure which is provided in the lighting main body and generates electric energy by using heat generated from the LED module, wherein the lighting heat power generation structure comprises a heat collecting module, a main thermoelectric element, and a main cooling module. The heat collecting module includes: a first heat collecting plate formed to have a size and shape corresponding to at least the LED module and provided to be in contact with the top surface of the LED module; and a second heat collecting plate formed to have a size corresponding to at least the first heat collecting plate, provided above the first heat collecting plate to receive heat directly or indirectly from the first heat collecting plate, and having a top surface being in contact with one surface of the main thermoelectric element.
Resumen de: WO2025241139A1
The present invention relates to a floating solar power generation device with a semi-submersible floating body, comprising a plurality of solar panels, at least one sun-tracking device, a supporting frame, a plurality of floating devices and a plurality of plates, wherein each solar panel has a first light receiving surface and a second light receiving surface on two opposite sides, and the plurality of solar panels are horizontally arranged and connected in a continuous manner to form a solar power generation module; the sun-tracking device is connected to the solar power generation module; the supporting frame is arranged below the solar panels, and has a base frame portion at the lower part; each floating device comprises a horizontally-straight hollow cylindrical main floating body and a plurality of vertical auxiliary floating bodies, and the main floating bodies are spaced apart from each other and horizontally arranged below the supporting frame; the bottoms of the auxiliary floating bodies are joined to the main floating bodies, and the tops of the auxiliary floating bodies are fixedly connected to the supporting frame, creating flow guide spaces between the assembled auxiliary floating bodies; and the plates are fixedly arranged above the base frame portion of the supporting frame, thus integrally forming a floating power generation module. In this way, the present invention has higher floating stability and power generation efficiency.
Resumen de: WO2025241011A1
The present application for a utility model relates to a product pertaining to the renewable energy sector, and more particularly to a product which is useful in installations in marine and coastal environments, where conditions are conducive to the simultaneous exploitation of wind, solar and tidal energy. The application provides a multifunctional structure (1) intended for generating electricity, comprising an integrated set of aerodynamic blades (2) provided with photovoltaic solar panels (5) and an inverted and submerged tidal turbine (6), the configuration of which allows the simultaneous and optimized capture of wind, solar and tidal energy, thereby increasing energy efficiency and continuous energy production capacity. Integration of the three energy sources into a single structure reduces the need for multiple installations, maximizes the use of available space and minimizes the environmental impacts associated with the construction and operation of separate energy infrastructures.
Resumen de: US2025366319A1
A display device includes: a substrate including a display area including a first pixel area, a component area adjacent to the display area, and a non-display area adjacent to the display area, where the component area includes a second pixel area and a transmission area, and the non-display area includes a bending area; a first inorganic layer continuously arranged in the transmission area on the substrate, where a lower opening overlapping the bending area is defined through the first inorganic layer; a blocking layer on the first inorganic layer, a blocking layer opening overlapping the transmission area and an intermediate opening overlapping the lower opening are defined through the blocking layer; and a display element layer on the blocking layer, where the display element layer includes a first display element overlapping the first pixel area and a second display element overlapping the second pixel area.
Resumen de: US2025361692A1
A method for installing a solar tracker A-frame foundation includes: placing a first pile at a first location along a ground surface; placing a second pile at a second location along the ground surface, the second location spaced apart from the first location; simultaneously ramming the first pile into the ground surface at the first location and ramming the second pile into the ground surface at the second location; and after simultaneously ramming the first and second piles into the ground surface, coupling a first leg of a solar tracker A-frame support to the first pile and coupling a second leg of the solar tracker A-frame support to the second pile.
Resumen de: US2025361412A1
The invention relates to a transparent stain containing transparent metal oxides, such as copper oxide, zinc oxide, or titanium oxide, with particle sizes less than 100 nm, for application on photovoltaic panels. This stain provides antifungal properties that reduce microbial growth, particularly in humid and hot equatorial regions. By maintaining the efficiency of photovoltaic panels over time, this invention addresses the problem of efficiency loss due to fungal contamination without frequent maintenance.
Resumen de: US2025361207A1
An organic molecule is disclosure having a structure of Formula Iwherein Q is at each occurrence N or CRIII; W is at each occurrence N or CRIV; Z is at selected from the group consisting of a direct bond, CR3R4, C═CR3R4, C═O, C═NR3, NR3, O, SiR3R4, S, S(O) and S(O)2; RA is selected from the group consisting of CN and CF3; and wherein exactly one Q and exactly one W is N.
Resumen de: US2025359532A1
Animal ear tag assembly comprising: ear tag comprising a housing for enclosing electronic components, the housing comprising at least photovoltaic panel being arranged to form an external frontal outer face of the tag for receiving sunlight and powering the electronic componentry therein; a tether body configured to contact the animal's body during use, the tether body having an in-use upper female coupling portion for receiving and coupling an ear attachment stud member and an in-use lower cradle portion being configured for securing an attachment portion of the ear tag extending from the housing of the tag to arrange the photovoltaic panel in an outwardly facing configuration during use.
Nº publicación: US2025361246A1 27/11/2025
Solicitante:
GUANGDONG AGLAIA OPTOELECTRONIC MAT CO LTD [CN]
GUANGDONG AGLAIA OPTOELECTRONIC MATERIALS CO., LTD
Resumen de: US2025361246A1
The present disclosure relates to an organic electroluminescent material having a structural formula as shown in formula (A) or (B). Based on a conventional B-N resonance structure, in such material, an aromatic ring that does not participate in the resonance is fixed to a resonance ring by means of a dimethyl-substituted methylene group to form a larger rigid structure, thereby decreasing non-radiative vibration, reducing delayed fluorescence lifetime and reducing efficiency roll-off. Moreover, the introduction of the dimethyl-substituted methylene distorts the B-N planar skeleton, which can reduce fluorescence quenching at high concentrations, thereby obtaining relatively high efficiency. In addition, when Cy1 and Cy2 are different, especially after a heteroatom is introduced, this type of asymmetric structure can further distort the molecular plane, reduce film aggregation and quenching, and achieve a higher current efficiency.
BOPI
Sede Electrónica
