Photovoltaic Solar Energy

Dispositif de connexion électrique et de fixation mécanique

Absstract of: FR3163502A1

L’invention concerne un dispositif de connexion électrique et de fixation mécanique (1) entre deux pièces (2a, 2b). Ce dispositif est particulier en ce qu’il comporte :- un élément interne (3) présentant une section en forme de U et comportant deux moyens de connexion électrique (5), disposés chacun à l’extrémité libre d’une des jambe du U, et- un élément externe (4), configuré pour pouvoir entourer au moins partiellement l’élément interne (3) dans une position assemblée du dispositif (1),et en ce que lorsque ledit dispositif est en position assemblée, les moyens de connexion électrique (5) subissent une pression de la part de l’élément externe (4), afin que lorsque les pièces (2a, 2b) sont disposées entre les jambes du U, ladite pression génère une connexion électrique et une fixation mécanique des pièces entre elles. L’invention concerne également un procédé d’utilisation du dispositif selon l’invention. Figure pour l’abrégé : Fig 1

Pièce d’assemblage de tronçons de profilés et cadre obtenu par un tel assemblage

Absstract of: FR3163296A1

Pièce d’assemblage destinée à assembler deux tronçons (90) de profilé (2), chaque tronçon (90) comportant au moins une chambre (22) délimitée par un tube et au moins une première aile (23) faisant saillie du tube, la première aile (23) comportant un retour (231) s’étendant parallèlement à une première paroi (211) du tube de manière à délimiter une gorge (25), la pièce d’assemblage (91) comportant deux branches (910) formant un angle entre elles et reliées par un pilier (915), chaque branche (910) étant destinée à s’insérer dans la chambre (22) de l’un des tronçons (90), la pièce étant caractérisée en ce que le pilier (915) comporte des moyens de butée (8) faisant saillie des branches (910) pour que le profilé (2) soit en butée contre les moyens de butée (8) après coulissement de la branche (910) dans la chambre (22), le pilier (915) comportant en outre un logement (9155) pour le prolongement des gorges (25). Assemblage et cadre réalisés avec la pièce d’assemblage Figure pour l’abrégé : Fig. 3

Installation solaire comprenant un système de nettoyage, et procédé de nettoyage

Absstract of: FR3163512A1

La présente divulgation est relative à une installation solaire (1) comportant un ensemble de panneaux photovoltaïques (PV) juxtaposés, agencés selon une pente, comportant plusieurs panneaux photovoltaïques juxtaposés s’étendant suivant une première direction (X1), le long de la pente, et plusieurs panneaux s’étendant juxtaposés à une même hauteur, selon une deuxième direction (X2), et un système de nettoyage (2) comportant :- une unité de brossage (20), mobile sur les panneaux photovoltaïques de la pente inclinée suivant la première direction (X1) et selon la deuxième direction (X2), comportant un châssis (21), une brosse (22), rotative- un dispositif d’entrainement (23) configuré pour le déplacement de ladite unité de brossage , selon la première direction (X1) le long de la pente, et selon la deuxième direction (X2), comportant au moins un système d’ancrage (24) agencé en un point haut de la pente inclinée, et au moins un câble (Ca).Figure de l’abrégé : Figure 1.

Assemblage de tronçons de profilés, procédé d’assemblage et cadre obtenu par un tel procédé

Absstract of: FR3163295A1

Un assemblage comporte deux tronçons (90) de profilé (2), chaque tronçon (90) comportant au moins une chambre (22), l’assemblage comportant une pièce d’assemblage (91) en matière thermoplastique, la pièce d’assemblage (91) comportant deux branches (910) s’étendant selon des directions longitudinales respectives formant un angle entre elles, chaque branche (910) étant insérée dans la chambre (22) de l’un des tronçons (90) avec une surface de soudage (914) en appui contre une première face (221) de la chambre (22), et au moins un intercalaire s’étendant entre la surface de soudage (914) et une deuxième face de la chambre (22) à l’opposé de la première face (221), la surface de soudage (914) étant reliée par soudure avec la première face (221) de la chambre (22). Cadre formé par de tels assemblages et procédé de réalisation de tels assemblage Figure pour l’abrégé : Fig. 3

Profilé composite, cadre utilisant un tel profilé et procédé de fabrication dudit profilé

Absstract of: FR3163297A1

Un profilé comporte au moins une chambre (70), la chambre (70) étant délimitée par au moins une coque. Chaque coque comporte deux bordures (751, 761) et est formée par un matériau de renfort sous la forme d’une nappe de textile imprégnée d’une matrice en matière synthétique, chaque bordure (751, 761) étant superposée à une autre des bordures (751, 761) dans une zone de recouvrement, la ou les coques autour de la chambre (70) formant un tube (71). Cadre (9) réalisé avec de tels profilés et procédé de fabrication du profilé. Figure pour l’abrégé : Fig. 1

Anschlusssockel, Dacheindeckungselement mit Anschlusssockel, und Herstellungsverfahren für einen Anschlusssockel und ein Solar-Dacheindeckungselement

Absstract of: DE102024116886A1

Ein Anschlusssockel (1, 1', 1'') umfasst ein Gehäuse (2, 2', 2'') mit einem Basisabschnitt (4) und einem sich von ihm senkrecht erstreckenden Längsabschnitt (5) und zwei im Basisabschnitt (4) angeordnete elektrische Leitungen (9, 9'). Der Längsabschnitt (5) weist sich senkrecht vom Basisabschnitt (4) erstreckende Führungsflächen (14a, 14b, 14c, 14d, 14e, 14f, 14g, 14h, 14i, 14j, 14k, 14l, 14', 14a', 14b', 14c', 14d', 14e', 14'', 14a'', 14b'', 14c'', 14d'', 14e'', 14f'', 14g'') auf. Im Basisabschnitt (4) sind zwei parallel zu dessen Grundfläche und zueinander ausgerichtete Kontaktstreifen (8, 8') angeordnet, die jeweils mit einer elektrischen Leitung (9, 9') elektrisch verbunden und an einem Ende fixiert sind. Sie verlaufen jeweils bis zum Rand einer Verbindungsöffnung (6, 6') und erstrecken sich von dort senkrecht entlang wenigstens einer Führungsfläche (14a, 14b, 14c, 14d, 14e, 14f, 14g, 14h, 14i, 14j, 14k, 14l, 14', 14a', 14b', 14c', 14d', 14e', 14'', 14a'', 14b'', 14c'', 14d'', 14e'', 14f'', 14g''). Der Längsabschnitt (5) besitzt an dem vom Basisabschnitt (4) entfernten Ende eine Öffnung unterhalb oder an der die Kontaktstreifen (8, 8') jeweils U-förmig abgeknickt sind und sich entlang einer gegenüberliegenden Führungsfläche (14a, 14b, 14c, 14d, 14e, 14f, 14g, 14h, 14i, 14j, 14k, 14l, 14', 14a', 14b', 14c', 14d', 14e', 14'', 14a'', 14b'', 14c'', 14d'', 14e'', 14f'', 14g'') zurück in Richtung des Basisabschnitts (4) erstrecken.

ARTICULATING SOLAR TRACKER SUPPORT

Absstract of: US2025385638A1

The present disclosure involves systems, and an apparatus supporting an array of solar panels, the system including a bearing assembly configured to support a tracking shaft while allowing the tracking shaft to rotate about an axis and a torsion bar with a first end configured to be affixed to a pile, and a second end configured to be coupled to the tracking shaft, the torsion bar configured to function as a torsion spring exerting torque on the tracking shaft in response to rotation of the tracking shaft about the axis.

Klemme, System und Verfahren zur Befestigung eines Solarmoduls an einer Unterkonstruktion

Absstract of: DE102024116949A1

Die Erfindung betrifft eine Klemme (100) zur Befestigung eines Solarmoduls (200) mit einem Modulrahmen (202) an einer Unterkonstruktion (302), mit einem Klemmenkörper (102), der eine Klemmenoberseite (104) und eine der Klemmenoberseite (104) gegenüberliegenden Klemmenunterseite (106) umfasst, mit einer an der Klemmenunterseite (106) vorhandenen Auflagefläche (108), die von einer Nut (110) zur Klemmenfestlegung durchdrungen ist. Ein erster Aufnahmeabschnitt (112) schließt sich an eine erste Seite der Auflagefläche (108) für einen ersten Modulrahmenbereich an, der ausgebildet ist, um den Modulrahmen (202) im montierten Zustand zu klemmen, wobei sich an eine zweite Seite der Auflagefläche (108) ein zweiter Aufnahmeabschnitt (114) für einen zweiten Modulrahmenbereich anschließt, der mit einer von Null verschiedenen Neigung (116) bezüglich der Auflagefläche (108) derart ausgebildet ist, dass der Modulrahmen (202) im montierten Zustand im Wesentlichen klemmfrei, insbesondere gehängt, gehalten ist. Die Erfindung betrifft auch ein System (300) und ein Verfahren zur Befestigung wenigstens eines Solarmoduls (200) an einer Unterkonstruktion (302).

Photovoltaik-Montagesystem

Absstract of: DE102024116609A1

Die Erfindung betrifft ein Photovoltaik-Montagesystem zum Montieren mindestens eines Photovoltaik-Moduls auf einer Dachfläche, insbesondere einem Flachdach, mit mindestens zwei Knotenelementen, die mittels mindestens einer stabförmigen Querverbindung miteinander ortsfest gekoppelt sind, wobei die stabförmige Querverbindung als ein Hohlprofil mit geschlossener Mantelfläche gestaltet ist.

Montagesystem und Verfahren zur Befestigung von PV-Modulen an Gebäudefassaden

Absstract of: DE102024116819A1

Die Erfindung betrifft ein Montagesystem zur Befestigung von PV-Modulen an einer Gebäudefassade umfassend wenigstens eine in Vertikalrichtung an der Gebäudefassade anordenbare Basisschiene, sowie wenigstens einen Modulträger, der an der wenigstens einen Basisschiene unabhängig von anderen Modulträgern verschiebbar gelagert und in einer Zielposition fixierbar ist, wobei der wenigstens eine Modulträger eine senkrecht zur Basisschiene stehende Auflagefläche für ein erstes PV-Modul und wenigstens eine, in der Montageposition unterhalb der Auflagefläche vorgesehene Aufnahme zum Einhängen eines zweiten PV-Moduls umfasst, wodurch der Montageabstand des ersten und zweiten PV-Moduls durch den Modulträger definiert wird.

Montagesystem und Verfahren zur Befestigung von PV-Modulen an Gebäudefassaden

Absstract of: DE102024116824A1

Die vorliegende Erfindung betrifft ein Montagesystem zur Befestigung von PV-Modulen an einer Gebäudefassade umfassend wenigstens eine in Vertikalrichtung an der Gebäudefassade anordenbare Basisschiene, sowie wenigstens einen Modulträger, der an der wenigstens einen Basisschiene unabhängig von anderen Modulträgern verschiebbar gelagert und in einer Zielposition fixierbar ist, wobei der wenigstens eine Modulträger eine senkrecht zur Basisschiene stehende Anschlagsfläche für ein erstes PV-Modul und wenigstens eine dazu parallel verlaufende Auflagefläche für wenigstens ein zweites PV-Modul umfasst, wobei der Abstand zwischen Anschlags- und Auflagefläche den Montageabstand zwischen zwei in Vertikalrichtung benachbarten PV-Modulen definiert.

SISTEMA DE SOPORTE PARA UNA INSTALACION SOLAR BIFILA

Absstract of: WO2024218415A1

The invention relates to a support system for a two-row solar installation, which comprises: two rows of solar trackers (1), wherein each row comprises a rotation shaft (1.2) and a plurality of posts (1.4) fixed to the ground and designed to support each rotation shaft (1.2); and a transmission system (2) connected to the two rotation shafts (1.2) and designed to simultaneously transmit a rotation movement to the two rotation shafts (1.2), wherein the transmission system (2) is connected to both rotation shafts (1.2) by at least one transmission bar (5), which is connected at each end to each rotation shaft (1.2), the transmission system (2) comprising at least one linear actuator (6) for transmitting the rotation movement, which is attached at a first end (6.1) to the transmission bar (5) and at a second end to a post (1.4).

Sistema de recuperación de calor

SOLAR PANEL ATTACHMENT SYSTEM

Absstract of: WO2025259134A1

The invention relates to a system for attaching solar panels to a gable roof. The system consists of at least one load-bearing arm positioned on one slope of a roof and, attached to said load-bearing arm, a counterweight arm positioned on the other slope of the roof. Mounted to the load-bearing arm either directly or via at least one bracket attached thereto is at least one solar panel, the counterweight arm being designed to be capable of compensating for the weight of the load-bearing arm and of the solar panel mounted thereto. The counterweight arm and the load-bearing arm are connected to at least one support containing an elastic material and being designed to be capable of resting on the roof.

DIRECT-CURRENT POWER SUPPLY SYSTEM AND POWER CONTROL METHOD

Absstract of: WO2025257985A1

A direct-current power supply system 1 comprises: two power supply systems that each include a communication load, a rectifier, a storage battery, a solar power generation device, an electric vehicle (EV), a delivery inverter, and a control unit; and a monitoring server that monitors the surplus or shortage of power at each of the power supply systems and the charging amounts of the storage batteries and the EVs. The control units are configured to exchange power generated by the solar power generation devices and power discharged by the EVs between the power supply systems, switch the storage battery and the EV of each of the power supply systems between regenerative power and active power, and manage a supply amount from each of the power supply systems by adjusting an output voltage.

MOUNTING STRUCTURE OF SOLAR CELL PANEL

Absstract of: WO2025258015A1

The present invention provides a mounting structure of a solar cell panel capable of easily holding a side end frame of the solar cell panel. In a mounting structure of a solar cell panel 1 according to the present invention, a solar cell panel 1 composed of a frame body is mounted and fixed by a mounting member 3 to be fastened to a mounting bolt 22 erected at an arrangement position. The frame body 11 has an engagement projection 111 extending to the inside direction. The mounting member 3 includes engagement groove parts 32, 37 that are positioned on the rear surface side of the solar cell panel 1 and are opened to the outside direction, and mounting parts 31, 36 that extend to the outside direction of the solar cell panel 1. The engagement projection parts 111 and the engagement groove parts 32, 37 are engaged with each other, and the mounting parts 31, 36 are fastened to the mounting bolt 22 to be mounted and fixed.

PHOTOVOLTAIC INVERTER-BASED PROTECTIVE SIDE COLUMN AND MOUNTING BRACKET

Absstract of: WO2025256039A1

The present invention relates to the technical field of the maintenance of photovoltaic inverters, and in particular to a photovoltaic inverter-based protective side column and a mounting bracket. The photovoltaic inverter-based protective side column comprises a side column assembly, which comprises a structural member and a channel member disposed on one side of the structural member, wherein the structural member comprises a vertical tube and a fixing ring disposed on an inner side of the vertical tube; and a pressing member comprises a sliding column movably disposed within a mounting member and a pressing block disposed on one side of the sliding column, and the pressing block is in contact with the fixing ring. In the present invention, an upper mounting tube and a lower mounting tube are provided, such that a channel is formed between the upper mounting tube and the lower mounting tube after installation. When maintenance is required for a cooling fan, it can be directly performed by means of a cooling fan drawer. This design eliminates the need for a power shutdown, and enables a single operator to easily perform inspection, replacement, and maintenance of the cooling fan, thereby saving a substantial amount of labor and reducing costs for component replacements.

CONNECTION SOCKET, ROOF-COVERING ELEMENT HAVING A CONNECTION SOCKET, AND PRODUCTION METHOD FOR A CONNECTION SOCKET AND A SOLAR ROOF-COVERING ELEMENT

Absstract of: WO2025256709A2

A connection socket (1, 1', 1''') comprises: a housing (2, 2', 2''), which has a base portion (4) and a longitudinal portion (5) extending perpendicularly from the base portion; and two electrical lines (9, 9') arranged in the base portion (4). The longitudinal portion (5) has guide surfaces (14a, 14b, 14c, 14d, 14e, 14f, 14g, 14h, 14i, 14j, 14k, 14l, 14', 14a', 14b', 14c', 14d', 14e', 14'', 14a'', 14b'', 14c'', 14d'', 14e'', 14f'', 14g'') extending perpendicularly from the base portion (4). Two contact strips (8, 8') are arranged in the base portion, the contact strips being oriented parallel to the main surface of the base portion and to one another and each being electrically connected to an electrical line (9, 9') and fastened at one end. The contact strips each extend to the edge of a connection opening (6, 6') and extend perpendicularly from there along at least one guide surface (14a, 14b, 14c, 14d, 14e, 14f, 14g, 14h, 14i, 14j, 14k, 14l, 14', 14a', 14b', 14c', 14d', 14e', 14'', 14a'', 14b'', 14c'', 14d'', 14e'', 14f'', 14g''). The longitudinal portion (5) has, at the end remote from the base portion (4), an opening below or at which the contact strips (8, 8') are each bent in a U-shape and extend along an opposite guide surface (14a, 14b, 14c, 14d, 14e, 14f, 14g, 14h, 14i, 14j, 14k, 14l, 14', 14a', 14b', 14c', 14d', 14e', 14'', 14a'', 14b'', 14c'', 14d'', 14e'', 14f'', 14g'') back toward the base portion (4).

PV SYSTEM HAVING COLLECTING UNITS, METHOD FOR OPERATING A PV SYSTEM HAVING COLLECTING UNITS, AND COLLECTING UNIT FOR PV STRINGS

Absstract of: WO2025257291A1

The application relates to a PV system (10) having an inverter (14) and having at least one collecting unit (20) for PV strings (12). The collecting unit (20) has a plurality of inputs for PV strings (12) and has an output, wherein the inputs are connected in parallel in the collecting unit (20) and are switchably connected to the output of the collecting unit (20). The output of the at least one collecting unit (20) is switchably connected to a two-pole DC bus (16), and the DC bus (16) is switchably connected to a bridge circuit (18) of the inverter (14). According to the application, the at least one collecting unit (20) is assigned a residual-current circuit breaker (21) which is arranged between the point at which the PV strings (12) are connected in parallel and the DC bus (16). The residual-current circuit breaker (21) is designed to break the connection between the PV strings (12) and the DC bus (16) if a residual current on the connection between the PV strings (12) and the DC bus (16) exceeds a specifiable limit value. The PV system is characterized in that the residual-current circuit breaker (21) is designed to maintain the connection between the PV strings (12) and the DC bus (16) even in the presence of an inherently inadmissible residual current and/or to prevent the breaking of the connection between the PV strings (12) and the DC bus (16) if a passivation signal (30) is applied to the residual-current circuit breaker (21). The application also relates to a met

BRIDGE BRACKET MECHANISM

Absstract of: WO2025255913A1

Disclosed in the present application is a bridge bracket mechanism, which is suitable for connecting two adjacent photovoltaic supports. The bridge bracket mechanism comprises two bridge bracket assemblies arranged opposite each other. Each bridge bracket assembly comprises: hinge rods, two hinge rods being respectively suitable for being hinged to two adjacent photovoltaic supports, and the two hinge rods being parallel to each other; a telescopic rod, two ends of which are respectively connected to the ends of the two hinge rods away from hinged ends; and adapters, wherein the hinge rods are connected to the telescopic rod by means of the adapters, each adapter comprises a rotational connection structure and an angle adjustment structure, the hinge rods are fixedly connected to the adapters by means of the rotational connection structures, and/or the telescopic rod is fixedly connected to the adapters by means of the angle adjustment structures. The bridge bracket mechanism has a simple structure, is convenient to mount, and can be adapted to the horizontal misalignment and the height difference between adjacent photovoltaic supports.

MOUNTING GUIDE RAIL FOR REMOVABLE FLEXIBLE PHOTOVOLTAIC MODULE

Absstract of: WO2025255892A1

The present invention relates to the technical field of photovoltaic guide rails, and particularly to a mounting guide rail for a removable flexible photovoltaic module. The mounting guide rail comprises a guide rail portion, wherein a connecting groove is provided in a lower portion of the guide rail portion, a limiting groove is connected to the connecting groove, a limiting arm is connected to the limiting groove, the limiting groove is connected to a grommet around the flexible photovoltaic module by means of a bolt portion, a nut portion and a gasket are provided at a connection between the bolt portion and the grommet, a second bolt in the connecting groove is connected to a clamp by means of a slider nut, and the clamp is connected to a mounting base surface. After such a structure is used in the present invention, a flexible assembly can be connected to the mounting base surface by means of bolts, thereby avoiding difficulties in disassembly, operation and maintenance caused by use of adhesives, and having no requirements for cleanliness and bonding performance of the mounting base surface. The present invention is convenient and efficient to use, has good practicability, and is more reliable in terms of connection.

PARKING SYSTEM

Absstract of: WO2025255914A1

A parking system is provided, comprising a cleaning robot (200) and a parking mechanism (100). The cleaning robot (200) comprises a driving mechanism and a rotating wheel. The driving mechanism is in transmission connection with the rotating wheel, and the driving mechanism can drive the rotating wheel to rotate. The parking mechanism (100) comprises a parking platform (1), a limiting plate (2), and an elastic element. The limiting plate (2) is rotatably connected to the parking platform (1) by means of a hinge shaft (7), and is used for limiting the rotating wheel of the cleaning robot (200). The elastic element is connected to the limiting plate (2), and is used for maintaining a limiting state of the limiting plate (2). The elastic element has a helical space (300). The limiting plate (2) is provided with a first hole (210). The hinge shaft (7) penetrates through the first hole (210) and the helical space (300). The parking system enables the cleaning robot to stably park on the parking platform, thereby improving the stability during parking.

Frames for Photovoltaic Modules and Mounting Features

Absstract of: US2025385636A1

A frame for a photovoltaic module may include: a base portion having an outer lip and a bottom surface while also defining an opening configured to receive a first mounting element therein; at least one leg extending from the base portion; and a panel support portion extending from the at least one leg and configured to secure a solar panel therein. The outer lip and the at least one leg may define a cavity.

A SOLAR TREE

Absstract of: WO2025256678A1

The invention relates to a solar tree (1) comprising: a trunk (2); at least one first branch (3) rotatably connected to the trunk (2) and driven by a first motor (4); at least one second branch (5) rotatably connected to the first branch (3) and driven by a second motor (6); and at least two photovoltaic panels (7) fixedly connected to the second branch (5), wherein the photovoltaic panels (7) are connected in parallel to each other and configured to charge a battery (8).

MATERIALS FOR ORGANIC ELECTROLUMINESCENT DEVICES

Nº publicación: US2025382281A1 18/12/2025

Applicant:

MERCK PATENT GMBH [DE]
Merck Patent GmbH

Absstract of: US2025382281A1

The present invention describes amines with dibenzofuran, dibenzothlophene and fluorene groups, especially for use as triplet matrix materials in organic electroluminescent devices. The invention further relates to a process for preparing the compounds of the Invention and to electronic devices comprising these.