If you want to distinguish your goods, services or both from those of another company, you may need a trademark or trade name. Find out what they are, what their registration procedure is and what it involves.
Information on the deadlines for filing applications for transformation of European Union trademarks into Spanish national trademarks. See more
If you have a new device, product or procedure that solves a technical problem or has a practical advantage, there are different ways to protect it in Spain and other countries. Find out how.
Does your innovation lie in the aesthetics, ornamentation or appearance of your product? Protect it through industrial design. Find out what rights registration confers and how to proceed.
Patents published worldwide are a valuable source of scientific, technical and commercial information.
El Bono 3 del Fondo para PYMEs 2025, que cubre la elaboración de Informes Tecnológicos de Patentes (ITP) y Búsquedas Retrospectivas se cerrará el lunes 10 de febrero de 2025 al cierre de la jornada laboral. Próximamente se informará sobre su reapertura. Puede consultar más información aquí.
If you are an entrepreneur or a company and you want to boost and improve the profitability of your business by adequately protecting the intangible assets of your organisation, in this space you will find what you need.
139
results.
Updated on
19/08/2025 [06:57:00]
Absstract of: FR3159274A1
Dispositif (1) de fixation de modules photovoltaïques, comportant un premier profilé (3) et un second profilé (4) coopérant avec le premier profilé (3), caractérisé en ce que- le premier profilé (3) présente une section de forme générale en U et comprend une âme (31), deux ailes dites verticales (32, 33) opposées parallèles et en regard, s’étendant perpendiculairement depuis l’âme, et deux rebords dits de support (30) de direction opposée s’étendant perpendiculairement depuis les ailes verticales (32, 33) à l’opposé de l’âme (31) et tournés vers l’extérieur ;- le second profilé (4) présente une section de forme générale en U et comprend une âme (41), deux ailes (42, 43) opposées parallèles et en regard, et deux rebords dits de serrage (40) de direction opposée et s’étendant perpendiculairement depuis les ailes (42, 43) dudit second profilé à l’opposé de l’âme (41) et tournés vers l’extérieur ;- le second profilé (4) est logé dans l’ouverture du U du premier profilé (3) de sorte que les rebords de serrage (40) du second profilé sont espacés des rebords de support (30) du premier profilé, et le dispositif comporte un système d’actionnement qui relie mécaniquement le second profilé (4) au premier profilé (3);- le système d’actionnement comprenant un organe de serrage, et étant apte, lors de l’actionnement de l’organe de serrage, à rendre mobile ledit second profilé (4) en translation longitudinale
Absstract of: US2025260217A1
A wire clamp may include a bottom piece having: a first base portion defining a first aperture, an at least partially elliptical barrier extending from the first base portion about the first aperture, and a plurality of legs extending from sides of the first base portion; a top piece having: a second base portion, a protrusion extending from the second base portion, the protrusion defining a second aperture, and a plurality of legs extending from sides of the second base portion; and a fastener. The first aperture and the second aperture may be configured to align and receive the fastener therethrough. A first side of the partially elliptical barrier and a first portion of the plurality of legs may define a first wire channel, and a second side of the partially elliptical barrier and a second portion of the plurality of legs may define a second wire channel.
Absstract of: WO2025168229A1
The invention relates to a fastening device comprising: - a main section which is intended to be secured to a beam, the main section comprising a bottom with two side walls (100b, 100c) positioned laterally thereon; - snap-fitting means configured to allow the crossmember (30) to be snap-fitted between the side walls (100b, 100c) after the crossmember (30) has been inserted between the side walls (100b, 100c) via a front face, opposite the rear face, of the main section; - spring means configured to exert a force against the crossmember (30), snap-fitted between the side walls (100b, 100c), in a direction from the rear face to the front face.
Absstract of: US2025260357A1
A portable consumer electronic apparatus that includes a portable charging hub configured for an off-grid power storage and supply. The portable charging hub includes a rechargeable energy storage device and a power circuitry that includes an input connection port for charging the rechargeable energy storage device and one or more output connection ports to be removably and electrically coupled to one or more external electronic devices for an off-grid power supply. The portable consumer electronic apparatus further includes a portable light module to be removably arranged on the charging portion configured as a base to support the portable light module when being charged and a portable solar tracker configured to be removably and electrically coupled to the input connection port for an off-grid charging. A method for controlling the portable consumer electronic apparatus is also disclosed.
Absstract of: US2025260360A1
The present invention relates to a floating device comprising a plurality of main floating bodies (1) configured to displace at least 80 cubic metres of water in total, a plurality of floating supports (2) configured to join the plurality of main floating bodies (1) together, a plurality of poles (3), each pole (3) having a first end that is joined to a main floating body (1) and a second end opposite to the first end, a support cover (4) joined to the second ends of the poles (3), wherein the support cover has a surface of at least 100 square metres, at least one anchoring element (5) and a mooring structure configured to join the main floating bodies (1) and/or the plurality of floating supports (2) with the anchoring element (5).
Absstract of: AU2025200453A1
Abstract ELECTRIC GENERATOR, CONVERSION METHOD AND METHOD FOR USING ONE SUCH GENERATOR An electric generator comprises solar modules (1), a station (6) and an additional 5 station (10) connected by a hauling cable (4a) supporting the solar modules (1) and a hauling cable (4b) moving the solar modules (1). Each solar module (1) is attached to the hauling cable (4b) by a detachable connector (5). A station (6) is provided with means for moving the hauling cable (4b) to move the solar modules (1) along the loop with respect to the station (6). A control circuit (9) is configured 10 to move the solar modules (1) from a production position to a rest position by moving the hauling cable (4b). Abstract ELECTRIC GENERATOR, CONVERSION METHOD AND METHOD FOR USING ONE SUCH GENERATOR 5 An electric generator comprises solar modules (1), a station (6) and an additional station (10) connected by a hauling cable (4a) supporting the solar modules (1) and a hauling cable (4b) moving the solar modules (1). Each solar module (1) is attached to the hauling cable (4b) by a detachable connector (5). A station (6) is provided with means for moving the hauling cable (4b) to move the solar modules 10 (1) along the loop with respect to the station (6). A control circuit (9) is configured to move the solar modules (1) from a production position to a rest position by moving the hauling cable (4b). an b s t r a c t a n , n e l e c t r i c g e n e r a t o r c o m p r i s e s s o l a r m o d u l e s ( ) , a
Absstract of: AU2024372142A1
A battery cell, a solar cell, and a photovoltaic module. The front surface of the battery cell is provided with a plurality of front surface connecting stations distributed at intervals in a first direction, each front surface connecting station is provided with a plurality of first connecting parts distributed at intervals in a second direction, the back surface of the battery cell is provided with a plurality of back surface connecting stations distributed at intervals in the first direction, each back surface connecting station is provided with a plurality of second connecting parts distributed at intervals in the second direction, the plurality of first connecting parts of every two adjacent front surface connecting stations are distributed in a staggered manner, and/or the plurality of second connecting parts of every two adjacent back surface connecting stations are distributed in a staggered manner. The battery can reduce the reliability failure risk of the photovoltaic module.
Absstract of: AU2023433194A1
The invention relates to a sandwich panel (19 comprising a photovoltaic active area (24) positioned on the outer sheet (4) and whose upper, respectively lower, electrical connector is positioned in an upper, respectively lower, cavity (44, 45), the upper cavity being positioned within the insulation material (2) in the upper half of the sandwich panel and adjacent to either the second longitudinal side of the insulation material or the inner sheet so that the upper electrical connector can be accessed from the upper cavity, the lower cavity being positioned within the insulation material in the lower half of the sandwich panel and adjacent to either the second longitudinal side of the insulation material or the inner sheet so that the first lower electrical connector can be accessed from the lower cavity.
Absstract of: AU2023419860A1
An automatic cleaning apparatus. The automatic cleaning apparatus comprises a mobile platform (1000), and a cleaning module (5000) assembled on the mobile platform (1000). The cleaning module (5000) comprises: a first rolling brush (100), wherein the first rolling brush (100) is arranged along a direction perpendicular to an axis of the mobile platform (1000) and comprises a first long brush piece (121); and a second rolling brush (200), wherein the second rolling brush (200) is arranged in parallel to the first rolling brush (100) and comprises a second long brush piece (221). The first long brush piece (121) and the second long brush piece (221) are configured to interfere with each other, such that an air intake channel (50) between the first rolling brush (100) and the second rolling brush (200) is at least partially shielded.
Absstract of: AU2024211168A1
An optical structure, wherein a first area of a solar cell (102a,b), said first area (106a,b) being a less active edge area of the solar cell (102a,b), is at least partially covered by an overlapping optical layer element (104), wherein said overlapping optical layer structure is configured to at least partially redirect light originally directed towards the first area (106a,b), wherein the redirected light is to be at least partially directed towards a second area (108a,b), optionally including center area, of the solar cell (102a,b), wherein said second area (108a,b) is a more active area than the first area (106a,b), thereby preferably providing, due to enhanced light conversion efficiency, more energy and improved total gain in the solar cell (102a, b) or module comprising the solar cell (102a, b). A method for enhancing the efficiency of a solar cell (102a,b) or a related module and a method for manufacturing an optical structure is further provided.
Absstract of: WO2025168196A1
The invention relates to a photovoltaic blind assembly (1) adapted for use in a double glazing unit comprising: - a plurality of blind slats (3) with photovoltaic elements (9), each blind slat (3) being provided with at least two through-holes (7), the through-holes (7) of the blind slats (3) being in use aligned along a vertical axis, said photovoltaic elements (9) comprising a contact electrode (8) surrounding at least partially each through-hole (7), - at least two ladder cords (4), - a tilt mechanism (2) coupled to the ladder cords (4) to provide control of the tilt angle of the blind slats (3), - at least two bare electrical wires (5) with each bare electrical wire (5) crossing the blind slats (3) through the aligned through-holes (7), said bare electrical wires (5) being in direct or indirect physical contact with the contact electrode (8) for at least one given tilt angle to provide the electrical connection between the different photovoltaic elements (9) of the blind slats (3) and to allow the extraction of the generated electrical current.
Absstract of: WO2025170475A1
The present invention relates to a laminated foldable solar panel comprising photovoltaic modules and a minor axis of bending at the centre that divides the solar panel into two sections shaped like opposing rhomboid parallelograms, the acute angles of which measure 85°. Each opposing parallelogram is divided by major axes of bending, parallel to the angle measuring 85° and extending to the minor axis of bending. The solar panel folds when an end apex of the minor axis of bending moves closer to a second folding apex located at the intersection of said minor axis of bending and the major axes of bending which are further from the end apex. The solar panel is unfolded in reverse order.
Absstract of: WO2025171330A1
A photovoltaic system includes a first solar reflector and a second solar reflector. Each of the first solar reflector and the second solar reflector can include a first reflective plane and a second reflective plane. The first reflective plane and the second reflective plane, together, can define a wedge-shaped cross section having an apex and at least two ends distal from the apex. The photovoltaic system also can include a first bifacial solar cell having an edge substantially parallel to an edge of the first solar reflector and an edge of the second solar reflector. The first solar reflector can be configured to reflect light onto a first side of the first bifacial solar cell and the second solar reflector can be configured to reflect light onto a second side of the first bifacial solar cell.
Absstract of: WO2025171176A1
In various embodiments, a wire management clip may comprise a mounting clip, a wire clip and a locking mechanism. The mounting clip can comprise an outer clip and an inner clip. The outer clip and inner clip may be operable to clamp onto a frame (e.g., a solar panel frame). The wire clip may be coupled to one of the inner clip and the outer clip. The wire clip may comprise a wire slot. The wire clip may be sized to retain one or more wires in the wire slot. The locking mechanism may be configured to retain the inner clip and the outer clip onto the frame.
Absstract of: WO2025170750A1
A universal solar panel support system including a plurality of universal solar panel corner supports for receiving solar panels. The universal solar panel support system is designed to transition from a resting, undeployed configuration to a lifted, deployed configuration to capture sunlight. The universal solar panel support system is mountable to a flat surface.
Absstract of: WO2025170637A2
A photonically powered electromagnetic generator (21) is provided. In another aspect, a generator includes a photon source (23; 1023; 2023) configured to emit photons, a photovoltaic cell (29; 1029; 2029) configured to receive the photons, a rotor (41; 1041; 2041) including a yoke and wire windings, a stator (43; 1043; 2043) surrounding the rotor, and the rotor being configured to create electromagnetism due to its receipt of electricity from the photovoltaic cell when the photovoltaic cell receives the photons, without the use of a brush and without the use of a permanent magnet.
Absstract of: WO2025170114A1
The present invention relates to a method and a device for displaying monitoring data of a solar module through an event marker or multi-selection. It is possible to identify, from among a plurality of solar modules, a solar module in which an even has occurred, and the overall event history, including event type, occurrence time and the like, can be intuitively checked through the event marker.
Absstract of: WO2025168866A1
The present invention relates to a transportable station for storing and recharging personal mobility vehicles comprising a prefabricated container (1) with an inner compartment provided with a first area (10) for storing personal mobility electric vehicles (100) such as electric bicycles (100) and scooters, means for their attachment and power supply means, the container (1) being formed by side walls, a base and a ceiling which define a rectangular parallelepiped structure with panels (3) that can be opened to provides access thereto. The power supply means comprise rechargeable batteries and solar panels (4) on the upper ceiling of the container (1) and/or a connection point (16) to an external power outlet as an electrical power source. Optionally, the invention comprises a second maintenance area (20), separated by a divider panel (5), and a toilet area (30) separated by a second divider panel.
Absstract of: WO2025168981A1
A system (100) for cleaning of solar panel (102) is disclosed The system includes a dirt detection unit (104), a cleaning assembly (106), a health monitoring unit (130) and a stopping mechanism (114). The dirt detection unit includes a reference panel and sensors to measure a power output, compare the power output with a power output of the solar panel for detecting the dust accumulation and activates the cleaning cycle. The cleaning assembly includes brushes (108) adapted to move up and down on the solar panel, limit switches (110) to sense the end of the solar panel, and showers (112) to spray water onto the solar panel surface for a predefined period. The health monitoring unit continuously monitors current values of a motor, detects a defect, activates an alarm and stops the cleaning until the defect is resolved. The stopping mechanism stops the cleaning after a cleaning cycle.
Absstract of: WO2025167893A1
Provided in the present application are a power converter and a control method therefor. The power converter may comprise a first power conversion module, a transformer, a second power conversion module and a controller, wherein an input end of the first power conversion module is connected to a photovoltaic port, and an output end of the first power conversion module is connected to a primary winding and an energy storage port of the transformer; an input end of the second power conversion module is connected to a secondary winding of the transformer, and an output end of the second power conversion module is connected to a load port; and when the photovoltaic port is connected to a photovoltaic module and the energy storage port is connected to a battery, the controller controls the first power conversion module to cause the photovoltaic port and the energy storage port to perform power conversion, and when the photovoltaic port is connected to the photovoltaic module and the load port is connected to an alternating-current power grid, the controller controls the first power conversion module and the second power conversion module to cause the photovoltaic port and the load port to perform power conversion. The present application requires the use of a relatively small number of elements, and has the advantages of high efficiency, a small size and a low cost.
Absstract of: WO2025167670A1
The present invention provides a sealedly tiled structure of a roof profile, a photovoltaic roof profile and a photovoltaic roof profile array. Two profile plates of the sealedly tiled structure respectively comprise a first fitting plate and a second fitting plate at a tiling position, a sealing component is arranged on at least one profile plate, and the sealing component extends along the tiling position of the two profile plates. When the two profile plates are tiled with each other, the tail end of the first fitting plate is snap-fitted with one second fitting slot, the tail end of the second fitting plate is snap-fitted with one first fitting slot, and the tail end of the first fitting plate and the tail end of the second fitting plate are bent and deformed in the thickness direction, so that the first fitting plate and the second fitting plate mutually clamp to form a stack structure; a gap at the tiling position is located in the stack structure; the sealing component is arranged at an inlet of the gap; and the stack structure abuts against and is connected to the sealing component so as to be sealedly connected to the gap. By applying the technical solution, a waterproof, sealed and tiled roof profile can be provided.
Absstract of: WO2025167680A1
The present invention provides a building panel integrated with photovoltaic and energy storage modules, comprising a profile body, a photovoltaic panel module, a heat insulation filling material, an energy storage module, and a flame-retardant layer. The profile body comprises an upper chamber having an upper opening and a lower chamber having a lower opening; the photovoltaic panel module is placed in the upper chamber to be exposed from the upper opening; the energy storage module is arranged in the lower chamber; the space between the energy storage module and the lower chamber is filled with the heat insulation filling material; the lower opening is sealed by the flame-retardant layer. The space between the energy storage module and the lower chamber is filled with the heat insulation filling material, and the lower opening is sealed by the flame-retardant layer, thereby achieving good heat-insulation and flame-retardant effects.
Absstract of: WO2025166976A1
Disclosed in the present invention are a photovoltaic main beam, a photovoltaic bearing, a photovoltaic support assembly and a photovoltaic system. The photovoltaic main beam comprises a main beam body and a first limiting portion arranged on the main beam body; on the cross-section of the photovoltaic main beam, the distance from the first limiting portion to the center of the main beam body is greater than the distances from other positions of the photovoltaic main beam to the center of the main beam body. The photovoltaic bearing is provided with a limiting slot for engaging with a limiting connector, and the photovoltaic main beam passes through an inner mounting hole of the photovoltaic bearing, the limiting connector passing through the limiting slot. A bearing housing is provided with an axially-penetrating bearing mounting hole, and the bearing housing is provided with a second limiting portion at the position adjacent to the bearing mounting hole, the second limiting portion being configured, when the photovoltaic bearing rotates, to engage with the limiting connector to limit rotation of the photovoltaic bearing within a preset angle.
Absstract of: WO2025166941A1
The present invention relates to the technical field of light-converting adhesive films, and relates in particular to an N-modified benzotriazole light-converting agent, a light-converting adhesive film, and a preparation method therefor. The light-converting agent uses benzotriazole as the parent structure, and one or two aryl or heteroaryl groups are introduced on two sides of the benzene ring; and the benzotriazole is graft-modified at the N-2 position with either a silane or a siloxane. On one hand, the introduction of silane functional groups adjusts the polarity of the light-converting agent to be similar to the polarity of an adhesive film layer, thereby inhibiting migration of the light-converting agent caused by differences in molecular polarity. On the other hand, the introduced Si and Si-O functional groups undergo grafting or hydrolytic condensation reactions during lamination of the adhesive film layer, further suppressing migration of the light-converting agent.
Nº publicación: WO2025166942A1 14/08/2025
Applicant:
SUNGROW SHANGHAI CO LTD [CN]
\u9633\u5149\u7535\u6E90\uFF08\u4E0A\u6D77\uFF09\u6709\u9650\u516C\u53F8
Absstract of: WO2025166942A1
An inverter (100) and a photovoltaic power generation system. The inverter (100) comprises: an isolation circuit (10), a direct-current bus (20), a balance circuit (30), and an inverter circuit (40), wherein the isolation circuit (10) comprises a primary-side circuit (11) connected to a direct-current source, and a secondary-side circuit (13); the direct-current bus (20) comprises a positive bus capacitor (21) and a negative bus capacitor (23); the balance circuit (30) comprises a first switch (31) and a second switch (33) connected to each other, and an inductor (35), the first switch (31) being connected to the positive bus capacitor (21), the second switch (33) being connected to the negative bus capacitor (23), and the inductor (35) being connected to the midpoint of the direct-current bus (20); and the inverter circuit (40) comprises a plurality of loops (41), the loops (41) being configured to output voltages of different phases.
BOPI
Electronic site
