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.
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.
131
resultados
Última actualización
25/04/2026 [07:24:00]
Resumen de: FR3167713A1
L’invention porte sur un procédé de caractérisation d’un matériau photovoltaïque, comprenant : l’obtention d’un spectre de luminescence (Dex) d’un échantillon du matériau photovoltaïque ; la détermination d’un jeu de paramètres permettant d’ajuster un modèle paramétrique au spectre obtenu ; et la détermination de caractéristiques du matériau photovoltaïque à partir du jeu de paramètres. Dans ce procédé, le modèle paramétrique (SFT) correspond à la somme d’au moins deux modèles (SF1, SF2) de spectre de luminescence. Figure pour l’abrégé : Figure 3
Resumen de: US20260114081A1
0000 A high efficiency solar power system combining photovoltaic sources of power (1) can be converted by a base phase DC-DC photovoltaic converter (6) and an altered phase DC-DC photovoltaic converter (8) that have outputs combined through low energy storage combiner circuitry (9). The converters can be synchronously controlled through a synchronous phase control (11) that synchronously operates switches to provide a conversion combined photovoltaic DC output (10). Converters can be provided for individual source conversion or phased operational modes, the latter presenting a combined low photovoltaic energy storage DC-DC photovoltaic converter (15) at string or individual panel levels.
Resumen de: US20260114072A1
0000 Systems and methods for fabricating a bi-facial solar cell are presented. Among many possible applications for a bi-facial solar cell described herein, a particularly interesting one is its application on the south pole region of the Moon. In this region, rather than rising and setting, the Sun travels in a complete circle, skimming low over the Moon's horizon. The bi-facial solar cell may be oriented vertically so that either one or the other side of the solar cell will be positioned to receive solar radiation to generate electricity. The bi-facial solar cell may include p-type regions adjacent to n-type regions on each side of the solar cell. The p-n junctions are between the p-type regions and the n-type regions and on or near the surface of each side of the solar cell.
Resumen de: WO2026083486A1
A solar cell (100) according to an embodiment of the present invention has a glass layer (102) and a resin layer (101). The thickness of the glass layer (102) is 250 µm or less. The resin layer (101) forms the outermost layer on the light-entering surface side, is disposed on the upper side of the glass layer (102), and has an oxygen index of 22% or more. A substance that has a zeta potential having a symbol different from those of the zeta potentials of the glass layer (102) and the resin layer (101) is disposed between the glass layer (102) and the resin layer (102).
Resumen de: US20260112993A1
The present disclosure provides a method for solar module placement. The method includes gripping, via a first arm of the robotic vehicle, a front face of a solar module. The method includes placing, via the first arm, the solar module above a torque bar such that a back face of the solar module is positioned proximate to a bracket of the torque bar. The method includes obtaining, via a sensor disposed in a second arm of the robotic vehicle as the second arm is located beneath the bracket, image data of the bracket. The method includes translating the image data into a pose for the first arm gripping the solar module. The method includes adjusting at least one of a position or an orientation of the first arm based on the pose. The method includes securing, via the second arm, the solar module to the bracket by a fastener.
Resumen de: US20260109211A1
A canopy assembly for a recreational vehicle includes a first support and a second support. The first support and the second support are configured to couple to the recreational vehicle. The canopy assembly also includes a canopy supported by the first support and the second support. The canopy includes a first panel coupled to the first support and the second support, a second panel coupled to the first support and the second support, a third panel selectively insertable between the first panel and the second panel, and a locking mechanism. The locking mechanism is reconfigurable between a locked position or an unlocked position. When the locking mechanism is in the unlocked position, the third panel is removable from the canopy.
Resumen de: WO2026083107A1
A method to optimize a tilt angle of an adjustable solar panel installed on an electric vehicle for power output is provided. The method includes receiving magnetic field data of the electric vehicle, estimating vehicle orientation from the magnetic field data of the electric vehicle, receiving GPS data that includes estimated global coordinates of the electric vehicle, determining a utility of solar panel orientation change based on the vehicle orientation and the GPS data, comparing the utility of solar panel orientation change to a threshold, and in response to the utility of solar panel orientation change being above the threshold, calculating a tilt angle of the adjustable solar panel with respect to a surface of the electric vehicle. The tilt angle can be calculated based on many factors including latitude of the electric vehicle, a seasonal adjustment, solar declination and angle of incidence.
Resumen de: US20260112995A1
Systems, devices, methods, and apparatus for a mechanical panel interface. Some systems include a base member at a bottom of a module frame. At least one support member of the module frame extends vertically away from the base member. A module receiving void of the module frame is configured to receive an edge of a PV module, is located above the at least one support member, and has an opening on a same side of the PV module frame as the at least one support member. A bracket interface of the module frame has an opening located on an opposite side of the module frame than the module receiving void. The bracket interface can be configured to receive, within a perimeter of the module frame, a tab of a corresponding module bracket. At least one enclosed area of the module frame is located above or below the bracket interface.
Resumen de: WO2026084668A1
The invention relates to a roof panel (10) which can be positioned on a roof to provide protection against natural conditions in houses, factories, warehouses, shopping malls, and similar buildings, comprising at least one body (20) made of rock wool, at least one sheet plate (30) connected to the upper vicinity of the body (20), at least one base sheet (31) connected to the lower vicinity of the body (20), at least one connection extension (50) and at least one protrusion (40) positioned side by side on the sheet plate (30) along at least one first axis (I) and extending in a second axis (II) direction perpendicular to the first axis (I), characterized in that the protrusion (40) has a trapezoidal form (41), the connection extension (50) has a narrowing form (51) as it moves away from the sheet plate (30) and a rectangular prism form (52) at the upper part of the narrowing form (51) so as to allow technical elements such as a solar panel or a water tank to be connected onto it, that the connection extension (50) and the protrusion (40) comprise at least one filling cavity (60) on the sides facing the body (20), that the filling cavity (60) of the connection extension (50) contains polyisocyan urate (PIR) and/or polyurethane (PUR) material, and that the filling cavity (60) of the protrusion (40) contains polyisocyanurate (PIR), polyurethane (PUR), or rock wool material.
Resumen de: WO2026084140A1
An AI-based self-sufficient smart farm system according to the present invention comprises: a rainwater collection device which is installed at the upper end or on the outer surface of the smart farm system and effectively collects rainwater; a water storage tank which stores the rainwater transferred through the rainwater collection device and supplies the rainwater to the smart farm as agricultural water; a solar panel which is installed outside the smart farm system, absorbs sunlight to generate electricity, and supplies the generated electricity to an electricity storage device in the smart farm; a crop cultivation robot which performs agricultural activities in the smart farm and collects data on the growth state of each crop in the process of performing the agricultural activities; and an AI analysis device which monitors the growth state of the crop on the basis of the data collected by the cultivation robot and controls the operation of an agricultural environment control device.
Resumen de: US20260112895A1
0000 The power generation system includes a plurality of solar panels and a plurality of power conversion devices that supplies power from the solar panel to a battery. The power generation system further includes a control device configured to control power supply by the plurality of power conversion devices. The control device executes adjustment processing that is processing of increasing a decrease rate of output power of a power conversion device with a large heat load than a decrease rate of output power of a power conversion device with a small heat load when power supplied to the battery is decreased.
Resumen de: DE102024130521A1
Die Erfindung betrifft einen Lagerlift (10) zur Ein- und Auslagerung von Lagergut, aufweisend ein Gehäuse (12), innerhalb dessen eine Vielzahl an Lagerplätzen für das Lagergut vorgesehen ist, dadurch gekennzeichnet, dass in das Gehäuse (12) eine Energieerzeugungseinrichtung (24) integriert ist, die ausgebildet ist, elektrische Energie zu erzeugen und die elektrische Energie an einen Verbraucher abzugeben, der sich innerhalb oder außerhalb des Gehäuses (12) befindet.
Resumen de: US20260110334A1
A torque tube interface for securing a torque tube to a support pile in a photovoltaic system may include a bearing housing configured to be secured to a support pile. The bearing housing may define an aperture and a housing slot. The torque tube interface may also include a bearing, which may be positioned substantially within the aperture such that the bearing is able to rotate within the bearing housing. The torque tube interface may also include a bifurcated stop which includes a first ring portion and a second ring portion that may connect and define an enclosed ring that may be secured around a torque tube and positioned at least partially within the bearing housing. The bifurcated stop may also include a limiter that is configured to extend through the housing and bearing slots to limit the amount that the torque tube may rotate.
Resumen de: US20260111694A1
A method for commissioning a photovoltaic array is provided herein and comprises detecting, at a detector, a plurality of barcodes assigned to at least one of a photovoltaic or a microinverter in operative communication with the photovoltaic, outputting, from the detector, isolated individual barcode images of the plurality of barcodes to a reader, analyzing, at the reader, the isolated individual barcode images, and outputting, from the reader, a plurality of serial numbers corresponding to the isolated individual barcode images.
Resumen de: WO2026083337A1
Automatic solar panel cleaning device with rotating brush An automated system (1) for cleaning solar panels (2) comprises an upper frame body (3), lower frame body (4), conductive rails (5, 6), and a motorized cleaning head (7). The frame bodies include driving and driven wheels (31, 32, 41, 42) positioned at the upper and lower edges of a solar panel, enabling efficient horizontal locomotion across the panel surface. Dual conductive rails attach to the frame bodies and maintain an electrical potential difference to each other. The cleaning head electrically connects to these rails for power supply and features motorized wheels (71, 72) enabling vertical travel movement along the panel. Current flow reversal through the rails provides directional control of the cleaning head movement. The cleaning head incorporates a motorized rotating brush system mounted on an adaptive suspension mechanism that compensates for surface irregularities, maintaining consistent optimal contact pressure with the solar panel surface throughout the operation.
Resumen de: US20260110316A1
An adjustable clip for securing a protective mesh to a solar panel is disclosed. The clip includes a main body having a curved profile configured to partially encircle a wire of the protective mesh and engage the edge of a solar panel frame. One or more insertable heads are slideably coupled to the main body to vary the gripping dimension of the clip, allowing it to accommodate different panel frame thicknesses and mesh gauges. The inner surface of the main body includes gripping protrusions and stabilizers that distribute load evenly, prevent slippage, and enhance structural rigidity. The clip may be formed from polytetrafluoroethylene (PTFE), other high-performance polymers, metallic materials, or fiber-reinforced composites such as carbon-or glass-fiber-reinforced polymers. The adjustable configuration provides a durable, reusable, and universally compatible fastening solution for securing protective mesh to a variety of solar panel installations.
Resumen de: WO2026083343A1
The present disclosure discloses a system (102) and a method (200) for generating electrical energy from one or more renewable energy sources. The system (102) includes one or more energy generation units (104) having one or more horizontal axis wind turbines (HAWTs) (104-1) mounted at a predetermined location to capture wind energy, and one or more vertical axis wind turbines (VAWTs) (104-2) positioned in proximity of the HAWTs (104-1) to harness generated wind energy and environmental wind currents for producing electrical energy. The system (102) further includes one or more solar photovoltaic (PV) arrays (104-3) configured to receive solar energy and convert it into electrical energy. One or more energy storage units (106) are operatively coupled to store the generated electrical energy. A power management unit (108) regulates the flow of stored electrical energy and facilitates its utilization for one or more energy utilization tasks.
Resumen de: US20260112963A1
0000 Provided are an inverter system and a control method for the inverter system. The inverter system includes: a direct current-to-alternating current circuit, a phase relay being disposed at a phase line connected to the direct current-to-alternating current circuit; a first capacitor and a second capacitor that are connected in series between a positive bus and a negative bus of the inverter system; and a first switch module, the first switch module having a first terminal connected to inverter-side ground via a current-limiting resistor in an inverter nighttime repair circuit and a second terminal connected to a neutral point between the first capacitor and the second capacitor. The first switch module is configured to, switch, prior to the inverter system being connected to a power grid, to a first operating mode in which the first terminal is connected to the second terminal.
Resumen de: WO2026083512A1
A solar cell panel according to an aspect 1 of an embodiment of the present invention has solar cell modules, photoelectric conversion layers, first sealing films, metal sheets, and metal fixtures. The solar cell modules are disposed in alignment along a first surface. The photoelectric conversion layers are included in the solar cell modules. A light entering side of the first surface is defined as the front side. The first sealing films are disposed on the back sides of the photoelectric conversion layers and have metal layers. Each of the metal sheets is disposed on the front sides and the back sides of adjacent solar cell modules among the solar cell modules, and covers peripheral portions of the adjacent solar cell modules. Each of the metal fixtures is disposed between the adjacent solar cell modules, and fixes the metal sheets in a state in which the adjacent solar cell modules are sandwiched by the metal sheets. The metal layers, the metal sheets, and the metal fixtures are made of pure metals or alloys having the same metal as the main component.
Resumen de: US20260113118A1
A display apparatus comprises an at least partially transparent display, the display configured to generate light to form an image for display to a user positioned in front of the display, and at least one of light-transmitting device or light-receiving device positioned behind the display, wherein the at least one of light-transmitting device or light-receiving device is configured to at least one of transmit or receive light through at least part of the display, wherein the at least one of light-transmitting device or light-receiving device comprises or forms part of an optical wireless communications (OWC) apparatus configured to at least one of transmit or receive the light through the at least part of the display.
Resumen de: AU2026202579A1
A bifurcated bearing housing for use within a torque tube interface may include a first component defining a first portion of an aperture configured to house a first portion of a rotating bearing, a second component defining a second portion of the aperture configured to house a second portion of the rotating bearing, and a connection interface between the 5 first and second components, wherein, when the first and second components are in an attached configuration, the connection interface lies below a centerpoint of the aperture defined by the first and second components. The bifurcated bearing housing may include one or more of ridges, gussets, and/or hems to increase the structural integrity and rigidity of the bearing housing. 10 pr p r
Resumen de: US20260112991A1
0000 A mounting assembly for use in mid-grab and/or edge-grab applications may include a clamp secured to a stanchion by a clamp fastener. The mounting assembly may also include a mounting plate and a base plate that may be secured to a mounting device by the stanchion. The mounting assembly may be used, for example, to secure photovoltaic modules (or other devices or structures) of varying heights to a roof or other building surface and to provide increased lift-off resistance.
Resumen de: US20260114076A1
The present application discloses a back contact solar cell and a photovoltaic module. An example back contact solar cell includes a semiconductor substrate, a first doped semiconductor layer, a second doped semiconductor layer, and a dielectric layer. The first doped semiconductor layer is disposed on a first region and a third region. The second doped semiconductor layer is disposed on a second region and the third region. A doping type of the first doped semiconductor layer is opposite to that of the second doped semiconductor layer. On the third region, the first doped semiconductor layer and the second doped semiconductor layer overlap in a thickness direction of the semiconductor substrate to form a stacked structure. The dielectric layer is disposed at least between the first doped semiconductor layer and the second doped semiconductor layer. A leakage path is disposed in the dielectric layer.
Resumen de: WO2026082173A1
The present application relates to the technical field of photovoltaics. Disclosed are an end support structure and a flexible photovoltaic support system. The end support structure comprises columns and a connecting assembly. At least two reinforcing members intersect at a preset angle between the two columns, so that the two columns are connected to each other, thereby ensuring the stability of the columns, and further improving the wind resistance and stability of the entire end support. Meanwhile, mounting cavities for accommodating the connecting assembly are formed on the columns, so that there is no need to add additional parts to adapt to the connecting assembly, thereby reducing the number of parts, simplifying the mounting process, and improving the assembly efficiency. In addition, a limiting member abuts against a bottom wall of a limiting notch, so that the limiting member has a large contact area with a main shaft, thereby ensuring the connection stability of a main cable.
Nº publicación: WO2026084489A1 23/04/2026
Solicitante:
ECOPOWERTECH CO LTD [KR]
(\uC8FC)\uC5D0\uCF54\uD30C\uC6CC\uD14D
Resumen de: WO2026084489A1
The present invention relates to a photovoltaic power generation monitoring system and, more specifically, to a photovoltaic power generation monitoring system using string characteristics, wherein the system classifies strings in consideration of characteristics of photovoltaic modules included in the respective strings and characteristics of inverters connected to the strings, and detects abnormal states of the strings by using the pattern of change in a string state indicator in the classified strings, thus making it possible to increase the accuracy of photovoltaic power generation monitoring.
BOPI
Sede Electrónica
