Si deseas distinguir tus productos, servicios o ambos de los de otra empresa, es posible que necesites una marca o nombre comercial. Descubre qué son, en qué consiste su procedimiento de registro y qué implica.
Información sobre los plazos de presentación de solicitudes de transformación de marcas de la Unión Europea en marca nacional española. Más información
Si tienes un nuevo dispositivo, producto o procedimiento que resuelva un problema técnico o tenga una ventaja práctica, existen distintas formas de protegerlo en España y en otros países. Descubre cómo hacerlo.
¿Tu innovación reside en la estética, la ornamentación o la apariencia de tu producto? Protégela mediante un diseño industrial. Descubre qué derechos confiere el registro y cómo realizar la tramitación.
Las indicaciones geográficas protegen el nombre de un producto originario de una zona geográfica, a la cual le debe una determinada calidad, reputación u otra característica. Descubre qué son, en qué consiste su procedimiento de registro y qué beneficios conceden.
Las patentes publicadas en todo el mundo son una valiosa fuente de información científica, técnica y comercial.
La Oficina de Propiedad Intelectual de la Unión Europea cierra la solicitud de ayuda del Fondo para pymes (SME Fund) hasta la siguiente convocatoria en 2026.
Si eres emprendedor/a o una empresa y quieres potenciar y mejorar la rentabilidad de tu negocio protegiendo de forma adecuada los activos intangibles de tu organización, en este espacio encontrarás lo necesario.
160
resultados
Última actualización
21/02/2026 [06:56:00]
Resumen de: WO2026037981A1
According to an example aspect of the present invention, there is provided a system comprising: at least one energy harvesting device (110) configured to harvest radiative energy from two opposite sides of the respective energy harvesting device (110); a layer of a granular slag material (210) comprising at least 70% of calcium oxide and/or silicon dioxide between the at least one energy harvesting device (210) and ground, whereby solar radiance to a side of each energy harvesting device (210) not facing direct sunlight is affected by reflection from the granular slag material (210), and whereby carbon dioxide is captured from the atmosphere by reacting with calcium oxide comprised in the granular slag material (210).
Resumen de: WO2026038078A1
A clip engaging under the wall-side edge trim of panels for cladding roof overhangs solves the problem of laying connection cables for solar installations and monitoring said cables.
Resumen de: WO2026036486A1
Embodiments of the present application relate to the field of photovoltaic modules, and provide a frame structure, a photovoltaic module, and a construction method. The frame structure of the embodiments of the present application comprises a base frame body and multiple fixing members, the base frame body comprising frame edges connected end to end; the fixing members are distributed along a length direction of the frame edges, the bottoms of the fixing members being fixed to the frame edges, the tops of the fixing members being provided with bearing plates, the bearing plates of all the fixing members together forming a bearing surface for bearing a laminated piece, and the bearing surface being located above the base frame body. The frame structure and the photovoltaic module of the embodiments of the present application enable the module to achieve the function of preventing water accumulation and dust accumulation under various mounting conditions, and can improve the efficiency of a back surface, thereby improving power generation efficiency of the module.
Resumen de: WO2026036467A1
A photovoltaic module, a control method for a photovoltaic module, and a computer-readable storage medium. The photovoltaic module comprises: photovoltaic panels each having a first surface and a second surface opposite to each other, wherein the first surfaces are used for receiving sunlight; a support, the photovoltaic panels being arranged on the support, and the support being used for adjusting the orientation of the first surfaces; and a solar tracker arranged on the support, wherein a light-receiving surface of the solar tracker is kept parallel to the first surfaces, and the solar tracker is used for acquiring an image of the sky that the light-receiving surface faces, and on the basis of the brightness distribution of the image of the sky, controlling the support to adjust the orientation of the first surfaces, so that an included angle between sunlight and the first surfaces is kept within a preset range. By means of the technical solution of the present application, the power generation efficiency of photovoltaic modules can be effectively improved.
Resumen de: WO2026039004A1
The invention relates to a floating energy system (10) comprising at least one generator (11) placed on the water surface and at least one battery pack (12) having a sealed enclosure (121) for storing electricity produced by the generator (11). Accordingly, its novelty is that the battery pack (12) comprises a passive cooling system (20) and an active cooling system (30), at least one floating pontoon (21) is provided around the battery pack (12) to allow it to float in the surrounding water for passive cooling, the sealed enclosure (121) comprises at least one cooling element (22) to increase its contact surface with water, at least one sensor (31) that allows temperature detection in the battery pack (12), it comprises at least one fan (32) that is positioned nearby the sealed enclosure (121) to blow air into the sealed enclosure (121) for active cooling of the battery pack (12), It comprises at least one air handling unit (33) associated with the sealed enclosure (121) by means of at least one cooling line (34) in order to cool the sealed enclosure (121) in cases where the said fan (32) is insufficient for cooling.
Resumen de: WO2026038611A1
The present invention relates to a wind power generation structure and a hybrid power generation apparatus using same and, more specifically, to a wind power generation structure and a hybrid power generation apparatus using same, in which the wind power generation structure, in order to occupy less space during installation and improve power generation efficiency by increasing air inflow, comprises: a module structure through which air flowing in from the outside can pass and then be discharged to the outside; and a wind power generation module comprising a support pillar of which one end is coupled to the module structure and which is provided vertically, and a plurality of blades which are rotatably arranged on the support pillar and generate electrical energy via the rotational force of the blades, wherein the module structure has a three-dimensional structure by means of a first flow path forming member and a second flow path forming member respectively arranged on the upper and lower ends thereof, and a third flow path forming member connecting both edges of the first flow path forming member and both edges of the second flow path forming member, and the wind power generation module comprises a first wind power generation module which includes a support pillar having one end coupled to the upper end or lower end of the module structure, and includes blades positioned in a space between the first flow path forming member and the second flow path forming member.
Resumen de: WO2026038289A1
The present invention discloses a multi -axis torus ring segmented ellipsoid optical concentration device (100) for CPV module that includes a primary optical element (104), a secondary optical element (108) and a multi -junction cell (112). The primary optical element (POE) (104) is an arcuate shaped structure that includes plurality of torus ring segments (204). The second optical element (SOE)(108) is a sphere that cut at a predefined position that encloses the multi¬ junction cell (112). The solar rays (124) fall incident onto the primary optical element (POE) (104) that reduces the focal length so that the fall incident onto the secondary optical element (SOE) (112) which is positioned at a closer distance. The device of the present invention leads to higher amount of energy generation with more Concentration ratio, more CAP and less f-number.
Resumen de: WO2026037443A1
Disclosed in the present application is a photovoltaic-thermal system, comprising a photovoltaic module, a refrigerant circulation system, a detection component and a controller, wherein the refrigerant circulation system comprises a first heat exchanger, a second heat exchanger, a third heat exchanger, a first control valve, and a second control valve, the first heat exchanger being connected to the second heat exchanger via the first control valve to form a first circulation loop, the first heat exchanger being connected to the third heat exchanger via the second control valve to form a second circulation loop, and the third heat exchanger exchanging heat with the photovoltaic module; the detection component is configured to output detection parameters; and the controller is connected to the detection component, and is configured to control the opening degrees of the first control valve and the second control valve on the basis of the detection parameters. In this way, the present application can reduce the operating temperature of the photovoltaic module, thereby improving the utilization efficiency of solar energy, and can also realize flexible allocation of heat exchange rates among the heat exchangers in the system.
Resumen de: WO2026037444A1
Disclosed in the present application is a photovoltaic-thermal system, comprising a photovoltaic module, a refrigerant circulation system, a detection component and a controller, wherein the refrigerant circulation system comprises a first heat exchanger, a second heat exchanger, a third heat exchanger, and a throttling component, the first heat exchanger being sequentially connected to the second heat exchanger and the third heat exchanger via the throttling component to form a circulation loop; one of the second heat exchanger and the third heat exchanger exchanges heat with the photovoltaic module, and the second heat exchanger is provided with a first heat transfer enhancement device; the detection component is configured to output detection parameters; and the controller is connected to the measurement component, and is configured to control the first heat transfer enhancement device on the basis of the detection parameters. In this way, the present application can reduce the operating temperature of the photovoltaic module, thereby improving the utilization efficiency of solar energy, and can also realize flexible allocation of heat exchange rates among the heat exchangers in the system.
Resumen de: WO2026037131A1
The present application discloses a photovoltaic module and a preparation method therefor. The photovoltaic module comprises: a first photovoltaic glass and a second photovoltaic glass; a frame-shaped waterproof adhesive layer disposed between the first photovoltaic glass and the second photovoltaic glass; a light-transmitting adhesive layer filled in a space enclosed and defined by the first photovoltaic glass, the second photovoltaic glass and the waterproof adhesive layer; and a solar cell encapsulated within the light-transmitting adhesive layer. A light-transmitting adhesive used in the light-transmitting adhesive layer comprises the following components in parts by mass: 120-180 parts of vinyl silicone oil, 30-50 parts of silicone resin, 5-15 parts of hydrogen-containing silicone oil, 10-20 ppm parts of a platinum complex catalyst, and 100-200 ppm parts of an inhibitor; and the light-transmitting adhesive has a viscosity of 20,000 cs to 50,000 cs. The use of the light-transmitting adhesive as the material of the light-transmitting adhesive layer can solve the problem of adhesive overflow or difficulty in defoaming that easily occurs during the defoaming process, thereby improving the performance of the photovoltaic module.
Resumen de: WO2026036995A1
The present application relates to the technical field of high-power converter port characteristic testing, and provides a hybrid closed-loop control and simulation system and method for a high-power converter. The system comprises: a simulation apparatus, connected to an alternating-current end of a high-power converter and used to simulate fluctuations in a voltage and a frequency of an alternating-current power grid and output the fluctuations to the high-power converter; a photovoltaic/battery simulator, connected to a direct-current end of the high-power converter and used to stabilize a direct-current-side voltage of the high-power converter; a digital simulation platform, separately connected to the simulation apparatus and the high-power converter and used to acquire a port voltage and current data of the high-power converter, perform modulation on the basis of the port voltage and current data, generate a modulation signal, and output same to the simulation apparatus; and an isolation transformer, separately connected to the simulation apparatus and the photovoltaic/battery simulator, so as to provide a power supply. According to the present application, the digital simulation platform is introduced into the simulation system, to implement simulation of a power system comprising new energy, so that test requirements placed on a converter can be met.
Resumen de: US20260051743A1
A shutdown apparatus for a photovoltaic module, and a photovoltaic system. The shutdown apparatus includes: a first part and a second part; the first part or the second part includes a shutdown circuit; and the first part and the second part are connected via a cable; the first part includes a negative input terminal and a negative output terminal, and the second part includes a positive input terminal and a positive output terminal; the negative input terminal and the positive input terminal are respectively used for connecting to a negative electrode and a positive electrode of a corresponding photovoltaic module; and the positive output terminal and the negative output terminal are respectively used for being connected in series to different shutdown apparatuses.
Resumen de: WO2026037076A1
Provided in the present application are a photovoltaic module frame and a photovoltaic module. The photovoltaic module frame comprises: a first frame, a second frame, a third frame and a fourth frame, wherein corner brackets are used to sequentially connect the first frame, the second frame, the third frame and the fourth frame end to end, the first frame and the third frame are provided with grooves for accommodating a laminate, and top surfaces of the second frame and the fourth frame are located below the laminate; and a plurality of rubber strips distributed between the top surface of the second frame and the laminate and between the top surface of the fourth frame and the laminate, wherein the second frame and the fourth frame expose corresponding side surfaces of the laminate. The photovoltaic module frame and the photovoltaic module of the present application are not prone to dust accumulation, and have high aesthetic appeal.
Resumen de: DE102024123252A1
Die Erfindung betrifft ein System zur Aufständerung von Solarmodulen, umfassend eine Mehrzahl von Aufständerungspfosten (1, 1', 100, 100', 1000, 1100), dadurch gekennzeichnet, dass es mindestens einen verankerbaren Aufständerungspfosten (1, 100, 1000, 1100) aufweist, welcher an einem unteren Ende (3) eines Basiskörpers (2, 102, 1002) zwei, sich in unterschiedliche Richtungen erstreckende Schenkel (4a, 4b, 1004a, 1004b) aufweist und mittels mindestens zwei, dem verankerbaren Aufständerungspfosten (1, 100, 1000, 1100) zugeordneten Verankerungsmittel (11) im Erdboden (106) verankerbar ist.
Resumen de: DE102024002650A1
Die Erfindung betrifft ein Schraubfundament (1) mit einem pfahlförmigen Grundkörper (10), der auf seinem in das Erdreich eindringenden Abschnitt mindestens ein gewindeartiges Schneidelement (20) besitzt und an seinem freien Ende einen Adaptionskopf (30) aufweist, auf dem ein zu verankerndes Bauteil befestigt wird, wobei sich der Nenndurchmesser „dn" des Schneideelementes (20) von der Pfahlspitze (11) des Grundkörpers (10) in Richtung des Adaptionskopfes (30) vergrößert. Die Erfindung zeichnet sich dadurch aus, dass das Schneidelement (20) einen Expansionsabschnitt (29) aufweist auf dem der Kerndurchmesser „dk-e“ des Grundkörpers (10) nahezu unverändert bleibt, während sich der Nenndurchmesser dn-edes Schneidelementes (20) steigert und sich dabei die Gewindetiefe „ae“ zwischen Gewindegrund (24) und Gewindespitze (23) vergrößert. Hierbei spielt die erfindungsgemäße geometrische Ausgestaltung des Schneidelements und des Grundkörpers eine besondere Rolle. Während des Einschraubvorgangs wird auch eine Verpressung des im Bohrloch verbliebenen Erdreiches bewirkt. Dadurch, dass der Kerndurchmesser des Grundkörpers unverändert bleibt und der Durchmesser des Schneidelements sich im Expansionsabschnitt vergrößert, wird das zum Abtransport des Erdreiches zur Verfügung stehende Raumvolumen vergrößert. Dies führt wiederum dazu, dass die verdichtete Erdmasse reduziert wird und sich dadurch die Gegenkräfte beim Einschraubvorgang verringern. Die Verringerung d
Resumen de: DE102024123272A1
Die Erfindung betrifft eine Befestigungsklemme (1) zur Montage einer Montageschiene (110) auf einem Dach mit einem Montageteil (10) mit einer Oberseite (11) und einer Unterseite (12), mit einem Spannhebel (20) mit einer Oberseite (21), einer Unterseite (22) und einem ersten Klemmhaken (23), wobei der Spannhebel (20) über eine Wipplagerung (35) wippend am Montageteil (10) gelagert ist, und mit einer Spannschraube (40), mit der der Spannhebel (20) auf einer ersten Seite (S1) der Wipplagerung (35) derart gegenüber dem Montageteil (10) verspannbar ist, dass auf einer anderen zweiten Seite (S2) der Wipplagerung (35) eine Klemmfläche (24) des ersten Klemmhakens (23) in Richtung des Montageteils (10) bewegt wird. Außerdem betrifft die Erfindung eine Dachbefestigungsvorrichtung (100) mit einer solchen Befestigungsklemme (1).
Resumen de: US20260048448A1
Provided is a tabbing device for manufacturing a solar battery module, which is capable of preventing over-soldering and under-soldering from occurring in the tabbing device for performing soldering during manufacture of a solar battery module, wherein the tabbing device for manufacturing a solar battery module includes: a solar battery module cell transported by cell unit along conveyor transport equipment; a soldering head provided on an upper side of the solar battery module cell and having embedded therein a heat source configured to provide heat to solder flux coated on the solar battery module cell being transported; a cooling unit installed to be positioned outside the soldering head, and configured to discharge cooling fluid to a lower position of the soldering head and cool the soldering head; and a control unit configured to control operations of the cooling unit and the soldering head in a case where transportation of the solar battery module cell is stopped, wherein, when the transportation of the solar battery module cell is stopped, the control unit operates the cooling unit to provide the cooling fluid and when restarting, stops the operation of the cooling unit and controls the temperature of the heat source to be increased to a predetermined temperature until all of the solar battery module cells in the offset section pass through the lower part of the soldering head.
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.
Resumen de: US20260047737A1
A self-moving cleaning device and a control method and apparatus therefor, and a storage medium are provided. The self-moving cleaning device includes a body and cleaning elements arranged at the bottom of the body, wherein at least part of each cleaning element is located outside an edge projection area of the body. The control method includes: determining a target interference area of the self-moving cleaning device; and on the basis of obstacle information in the target interference area, controlling the self-moving cleaning device to move.
Resumen de: US20260052250A1
An image decoding device includes a quantization parameter deriving unit configured to correct a value of a decoded quantization parameter of a target block depending on whether or not adaptive color transform has been applied to the target block, and then set, as the quantization parameter of the target block, the larger of the corrected value of the quantization parameter and a predetermined value of “0” or more.
Resumen de: US20260049338A1
The present invention relates in part to nucleic acids encoding proteins, nucleic acids containing non-canonical nucleotides, therapeutics comprising nucleic acids, methods, kits, and devices for inducing cells to express proteins, methods, kits, and devices for transfecting, gene editing, and reprogramming cells, and cells, organisms, and therapeutics produced using these methods, kits, and devices. Methods for inducing cells to express proteins and for reprogramming and gene-editing cells using RNA are disclosed. Methods for producing cells from patient samples, cells produced using these methods, and therapeutics comprising cells produced using these methods are also disclosed.
Resumen de: US20260050104A1
A weather measurement instrument sensor includes a housing having a top surface, a bottom surface, and a sidewall that at least partially define an interior volume within the housing, a first arm coupled to the housing and rotatable relative to the housing between a stowed position and a use position, a second arm spaced apart from the first arm, coupled to the housing, and rotatable relative to the housing between a stowed position and a use position, a first attachment coupled to a distal end of the first arm to facilitate measurement of a first environmental variable, and a second attachment coupled to a distal end of the second arm to facilitate measurement of a second environmental variable. The distal end of the first arm is nearer to the distal end of the second arm in the stowed position than in the use position.
Resumen de: US20260050339A1
A display device including a display panel including a flat area including a first display area and a first peripheral area adjacent to the first display area and a bending area including a second display area and a second peripheral area adjacent to the second display area, and an input sensing unit on the display panel. The input sensing unit includes first touch sensors having a mesh shape, extending in a first direction parallel to a bending axis of the bending area, and arranged in a second direction crossing the first direction, second touch sensors having a mesh shape, extending in the second direction, and arranged in the first direction, first connection electrodes respectively connected to ends of the first touch sensors, second connection electrodes respectively connected to ends of the second touch sensors, and touch signal lines connected to the first connection electrodes and the second connection electrodes.
Resumen de: US20260051748A1
The present disclosure provides a guitar case system comprising a clear vinyl guitar case, a plurality of solar fuel cells integrated into the exterior of the guitar case, a charging station connected to the solar fuel cells, and a plurality of storage compartments integrated into the guitar case. The charging station is configured to charge electronic devices stored in the compartments. The system enables musicians to efficiently organize and power their equipment while traveling, reducing reliance on external power sources and improving overall performance capabilities.
Nº publicación: US20260050057A1 19/02/2026
Solicitante:
AVSENSOR LLC [US]
AVSensor, LLC
Resumen de: US20260050057A1
Sensors are installed on a solar photovoltaic (PV) tracker project to monitor the movement of solar PV trackers, primarily under wind loading but also during normal tracking operation. The monitoring establishes a baseline performance of the system. Once this baseline is established, the system is monitored for any deviation from the baseline to provide early warning of developing issues before significant failures are experience under environmental loading. The system can also provide real-time measurement of wind speeds throughout the project, based on the baseline performance characterization.
BOPI
Sede Electrónica
