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SUPPORT SECABLE DESTINE A UNE BATTERIE AU PLOMB-ACIDE COMPRENANT UN ELECTROLYTE LIQUIDE

Resumen de: FR3165630A1

L’invention concerne un support sécable (100) destiné à une batterie au plomb-acide comprenant un électrolyte liquide, caractérisé en ce que le support sécable (100) comporte un bac d’évacuation apte à recueillir l’électrolyte liquide s’évacuant de ladite batterie, ledit support sécable (100) comportant un support électronique apte à maintenir un boîtier de fusibles et un dispositif de gestion de la direction assistée électronique, ledit bac d’évacuation (1) et ledit support électronique (2) étant reliées par une zone de rupture (3) apte à se rompre lors d’un choc frontal. En outre, l’invention concerne un véhicule automobile comportant ledit support sécable (100) et un procédé de montage dudit support sécable (100). Figure 1

Dispositif de sécurité d’un système de stockage d’électricité d’un véhicule

Resumen de: FR3165629A1

Système de stockage d’électricité d’un véhicule La présente invention concerne un système de stockage d’électricité (1) d’un véhicule, comprenant un boitier (2) et au moins une cellule de stockage d’électricité (3) disposée dans le boitier (2), et un circuit de traitement thermique (4) configuré pour être parcouru par un fluide de refroidissement, le circuit de traitement thermique (4) comprenant un moyen de mise en circulation (5) et un échangeur thermique (6), le circuit de traitement thermique (4) s’étendant au sein du boitier (2) de sorte à ce que le fluide de refroidissement traite thermiquement la cellule de stockage d’électricité (3), caractérisé en ce que le système de stockage d’électricité (1) comprend un dispositif de sécurité (8) comprenant une soupape de sécurité (10) et un dispositif de séparation cyclonique (9) centré autour d’un axe, l’axe passant par la soupape de sécurité (10). (figure 1)

DRY ELECTRODE, METHOD FOR MANUFACTURING SAME, AND SECONDARY BATTERY COMPRISING SAME

Resumen de: WO2026038866A1

Presented are a dry electrode, a method for manufacturing same, and a secondary battery comprising same. The dry electrode comprises an electrode current collector and an electrode active material layer positioned on at least one surface of the electrode current collector, wherein the electrode active material layer comprises a composite in which an electrode active material, a conductive material, and a first binder polymer are composited, and a fibrillated second binder polymer. The first binder polymer comprises a polyvinylidene fluoride (PVDF)-based material, the second binder polymer comprises polytetrafluoroethylene (PTFE), and the aspect ratio of the first binder polymer is 1:1 to 1:3.

BATTERY MODULE FOR PREVENTING THERMAL PROPAGATION

Resumen de: WO2026038832A1

A battery module for preventing thermal propagation, according to one embodiment of the present invention, comprises: a battery cell stack in which a plurality of battery cells are stacked; a module case for accommodating the battery cell stack; and a channel-forming plate disposed on an upper side of the module case and including a plurality of protrusions spaced apart from one another along a width direction, wherein the protrusions respectively form channels for discharging gas from the battery cells. A battery module, according to one embodiment of the present invention, can prevent gas and flame discharged from the module from flowing back into the module, and can prevent thermal propagation to adjacent cells.

BATTERY CELL, BATTERY PACK, AND VEHICLE COMPRISING SAME

Resumen de: WO2026038821A1

A battery cell according to the present invention comprises: an electrode assembly provided by being wound around the central axis of a winding center hole with a separator interposed between a first electrode and a second electrode; a cell housing having the electrode assembly accommodated therein and having an opening formed on one side thereof; a can lid covering the opening; and a current collector having a first coupling portion coupled to the electrode assembly and a second coupling portion coupled to the can lid, wherein the second coupling portion is spaced apart from the electrode assembly.

SYSTEM FOR PRESSURIZING AND COOLING BATTERY CELL AND OPERATING METHOD THEREOF

Resumen de: WO2026038814A1

The present invention relates to a system for pressurizing and cooling a battery cell and an operating method thereof. The system for pressurizing and cooling a battery cell shortens the process time required for cooling and pressurizing a pouch battery cell during an activation process of the pouch battery cell, and significantly shortens process time by simultaneously measuring the voltage of the battery cell.

BATTERY APPARATUS AND ELECTRIC DEVICE

Resumen de: WO2026036728A1

Provided in the present application are a battery apparatus and an electric device. The battery apparatus comprises a case and battery cells. The case comprises a body and a bottom protective plate. The body comprises a frame and a base plate, the base plate being connected to the frame and enclosing with the frame to form an accommodating cavity, which is used for accommodating the battery cells, and the base plate being connected to the battery cells in a thermally conductive manner. The bottom protective plate is arranged on the side of the base plate away from the accommodating cavity and is detachably connected to the body; a heat exchange channel for accommodating a heat exchange medium is formed in the bottom protective plate, and the bottom protective plate is connected to the base plate in a thermally conductive manner. The battery apparatus provided in the present application integrates the heat exchange channel in the bottom protective plate, thereby reducing the risk of heat exchange medium leakage into the battery apparatus when the heat exchange channel breaks, and the bottom protective plate being detachably connected to the body of the case improves the maintainability of the battery apparatus.

BATTERY SYSTEM AND VEHICLE

Resumen de: WO2026036724A1

The present application provides a battery system and a vehicle. The battery system comprises: a battery unit, comprising a plurality of battery cells arranged in a first direction, each battery cell comprising a battery main body and a post that protrudes from the battery main body; a conductive bar, connected to the post of at least one battery main body; and a first liquid cooling component, comprising a liquid cooling plate and a support portion. The liquid cooling plate is located on the side of the conductive bar away from the battery cells. The liquid cooling plate exchanges heat with the conductive bar. The support portion is arranged between the liquid cooling plate and at least one battery main body to support the liquid cooling plate.

TERMINAL POST, COVER PLATE ASSEMBLY AND BATTERY

Resumen de: WO2026036703A1

The present application relates to the technical field of batteries. Disclosed are a terminal post, a cover plate assembly and a battery. The terminal post comprises: a plate body, which comprises an aluminum layer and a copper layer, wherein the copper layer is annular and is connected to at least part of a first side face of the aluminum layer; and a post body, which is connected to a first side of the plate body, wherein at least part of the copper layer surrounds and is connected to the peripheral side of the post body, at least part of the post body being a copper post portion, which covers the outer surface of the post body and is fixedly connected to the copper layer; the post body is adapted to pass through a first through hole on a cover plate body, the area on the surface of the cover plate body occupied by the first through hole being S0, the area enclosed by the projection of the outer contour of the copper layer on the surface of the cover plate body being S1, and the projected area of the aluminum layer on the surface of the cover plate body being S2, where S0

BATTERY PACK AND DEVICE INCLUDING SAME

Resumen de: WO2026038755A1

A battery pack according to an embodiment of the present invention includes: a plurality of battery cell stacks including a plurality of battery cells; a lower plate on which the plurality of battery cell stacks are disposed; and a plurality of heat dissipation pads which are disposed between each of the plurality of battery cell stacks and the lower plate and are in direct contact with the battery cell stacks, wherein the lower plate includes a plurality of vacuum adsorption holes disposed in correspondence with the heat dissipation pads, and includes a vacuum mechanism which is coupled to the plurality of vacuum adsorption holes and adsorbs the heat dissipation pads to the lower plate by removing air from between the lower plate and the heat dissipation pads.

BATTERY CELL, AND BATTERY PACK AND VEHICLE INCLUDING SAME

Resumen de: WO2026038748A1

A battery cell according to the present invention comprises: an electrode assembly in which a positive electrode, a negative electrode, and a separator are stacked in a stacking direction; a cell case for accommodating the electrode assembly; and an insulation coating layer which is formed by being coated on the remaining portion of the cell case except for both side surface portions in the stacking direction of the electrode assembly, and which includes an insulation material, wherein the cell case includes a contact unit which is formed at a position different from the position at which the insulation coating layer is formed, and with which a cooling member is in contact.

METHOD FOR MANUFACTURING SECONDARY BATTERY, SECONDARY BATTERY, BATTERY MODULE COMPRISING SAME, BATTERY PACK, AND TRANSPORTATION MEANS

Resumen de: WO2026038762A1

The present invention relates to a method for manufacturing a secondary battery, a secondary battery, a battery module comprising same, a battery pack, and a transportation means. The secondary battery, according to the present invention, may comprise an electrode assembly and a current collector plate. The electrode assembly may include an electrode unit and a plurality of first foil tabs and a plurality of second foil tabs which are formed at one end of the electrode unit. The current collector plate may include a first current collector portion welded to the plurality of first foil tabs and a second current collector portion welded to the plurality of second foil tabs. The plurality of first foil tabs may be bent in one direction toward the first current collector portion of the current collector plate, and the plurality of second foil tabs may be bent in a direction opposite to that of the first foil tabs toward the second current collector portion of the current collector plate. The present invention can prevent the occurrence of an unwelded portion in some foil tabs when a large number of foil tabs are welded to the current collector plate.

COOLING DEVICE AND BATTERY PACK INCLUDING SAME

Resumen de: WO2026038750A1

A cooling device according to some embodiments comprises: a heat sink including a plurality of cooling channels extending in a first direction and spaced apart from each other in a second direction perpendicular to the first direction, and a plurality of hollows extending in the first direction and spaced apart from each other in the second direction; and a block coupled to the heat sink, wherein the block includes a plurality of first holes and a plurality of second holes on a side close to the heat sink and a side far from the heat sink, each of the plurality of first holes overlaps a corresponding one of the plurality of cooling channels in the first direction, each of the plurality of second holes overlaps a corresponding one of the plurality of hollows in the first direction, and each of the plurality of cooling channels may include two or more sub-channels. Some embodiments of the present invention enable rapid cooling of a battery. Accordingly, the stability of the battery can be improved, and rapid charging of the battery is enabled.

COMMUNICATION SYSTEM FOR ENERGY STORAGE BATTERY AND COMMUNICATION METHOD THEREFOR, AND VEHICLE

Resumen de: WO2026036607A1

A communication system for an energy storage battery and a communication method therefor, and a vehicle. The energy storage battery comprises a battery cluster. The battery cluster comprises a plurality of battery packs connected in series between a positive electrode end and a negative electrode end of the battery cluster. A power line is connected between two adjacent battery packs. A power line is connected between a positive electrode of the first battery pack and the positive electrode end of the battery cluster. A power line is connected between a negative electrode of the last battery pack and the negative electrode end of the battery cluster. The communication system for the energy storage battery comprises: a plurality of control modules, wherein the plurality of control modules comprise a master control module and slave control modules in one-to-one correspondence with the battery packs. Any one of the control modules is arranged on any one of the power lines. The master control module and any one of the slave control modules use carrier signals to perform information exchange by means of power lines.

LIQUID COOLING ASSEMBLY, BATTERY CASE, AND BATTERY PACK

Resumen de: WO2026036573A1

The present application provides a liquid cooling assembly, a battery case, and a battery pack. An energy storage case comprises: a bottom plate; a plurality of first side plates surrounding the periphery of the bottom plate, the plurality of first side plates and the bottom plate jointly defining an accommodating cavity, and the accommodating cavity being used for accommodating an electrical element; a bearing member arranged in the accommodating cavity, one side of the bearing member being fixedly connected to the bottom plate and the other side of the bearing member being used for mounting the electrical element; and a plurality of connecting members arranged on the bottom plate, the bearing member being connected to the bottom plate by means of the connecting members.

BATTERY CELL, BATTERY DEVICE, ELECTRIC DEVICE, AND ENERGY STORAGE DEVICE

Resumen de: WO2026036505A1

A battery cell (20), a battery device (100), an electric device, and an energy storage device (2000), relating to the technical field of batteries. The battery cell (20) comprises a casing (201), an electrode assembly (202), and a pole assembly (203); the casing (201) is provided with an accommodating cavity; the electrode assembly (202) is arranged in the accommodating cavity, and the electrode assembly (202) comprises an electrode body (2021) and a conductive member (2023) connected to each other; the pole assembly (203) passes through a mounting hole (2011) of the casing (201); the pole assembly (203) is connected to the electrode body (2021) by means of the conductive member (2023); the pole assembly (203) comprises a first component (2031) and a second component (2032); the first component (2031) and the second component (2032) are connected to form a first welding portion (2033); the conductive member (2023) is partially spaced apart from the pole assembly (203) to form a clearance space; and the first welding portion (2033) is provided at the end of the pole assembly (203) facing the clearance space.

THERMAL MONITORING OF LITHIUM-ION OR SODIUM-ION TRACTION BATTERIES IN A RACK STORAGE SYSTEM VIA A VEHICLE BUS OR ON-BOARD DIAGNOSTIC INTERFACE

Resumen de: WO2026037776A1

A system (BMA) is provided for thermally monitoring a plurality of drive batteries (BP), wherein the drive batteries are stored in a rack storage system (RL) having a plurality of storage compartments (LF) and each comprise: a plurality of battery modules (MOD) having battery cells (BAT); a battery management system (BMS); and a means for connection to a vehicle controller of the electric vehicle. The system comprises at least one connection point (AP), in the region of the rack storage system, for in particular automatic data connection to an externally accessible vehicle bus interface or diagnostic interface (CAN, OBD) of a stored drive battery for the purpose of receiving present drive battery data (D), in particular battery temperature values, and/or an overtemperature warning (W), from the battery management system of the particular stored drive battery. The system is designed to output the drive battery data and/or overtemperature warning received from the at least one connection point and relating to the particular drive battery stored in the rack storage system, preferably along with an associated storage compartment position (POS), to a superordinate hazard notification point (Z).

BATTERY WITH INTEGRATED SHOCK AND VIBRATION BARRIER AND INTEGRATED ANTI-THEFT MECHANISM

Resumen de: US20260051593A1

An integrated battery and shock and vibration barrier isolates its battery from shocks and vibrations and achieves a natural frequency of less than 10 Hz. The integrated battery and shock and vibration barrier has no fitment problems and doesn't require volume-reducing modifications to the battery. The integrated battery and shock and vibration barrier is equipped with securement features that interact with the existing hold down structures in OEM battery holders and includes prominent features that inform consumers of the unique qualities of the battery.

DRY ELECTRODE COMPOSITIONS FOR LITHIUM-ION BATTERIES

Resumen de: WO2026039579A1

An electrode film formed from a dry process is provided having an elongation of at least 8 % is provided, wherein said film comprises at least 95 wt% electrode active material having a small particle size (D50 of 3 µm or less). Compositions and methods related to preparing the electrode film are provided as well as electrodes and lithium-ion batteries comprises these materials.

Verfahren und System zur Kalibrierung einer Batterie eines elektrisch betreibbaren Fahrzeugs

Resumen de: DE102024002634A1

Die Erfindung betrifft ein Verfahren zur Kalibrierung einer Batterie eines elektrisch betreibbaren Fahrzeugs (10), wobei zum Erreichen eines für die Kalibrierung erforderlichen Start-Ladezustands der Batterie ein bidirektionales Laden des Fahrzeugs (10) an einer bidirektionalen Ladestation (20) verwendet wird und wobei die anschließende Kalibrierung mittels des bidirektionalen Ladens des Fahrzeugs durchgeführt wird.Die Erfindung betrifft ferner ein System (100) zur Kalibrierung einer Batterie eines elektrisch betreibbaren Fahrzeugs (10).

Verfahren zum Herstellen eines Schichtverbundes als Vorprodukt für einen Elektrodenzusammenbau einer Batteriezelle; Verfahren zur Herstellung eines Elektrodenzusammenbaus und Schichtverbund

Resumen de: DE102024207813A1

Verfahren zum Herstellen eines Schichtverbundes, der ein Vorprodukt für einen Elektrodenzusammenbau einer Batteriezelle ist, wobei der Schichtverbund zumindest eine beidseitig eingebettete Separatorschicht aufweist, wobei die Separatorschicht in eine Struktur A-S-K oder K-S-Cxeingebettet ist,wobei A eine Anodenschicht ist, K eine Kathodenschicht ist, S eine Separatorschicht ist, und Cxeine Stromleitschicht für eine Bipolarbatteriezelle, eine anodische Stromsammelschicht odereine kathodische Stromsammelschicht ist,wobei der Schichtverbund maximal zwei Separatorschichten S enthält, und maximal eine Schicht Cxenthält,wobei das Verfahren aufweist:Herstellen der Struktur A-S-K oder K-S-Cxdurch Zusammenfügen und/oder aufeinander Abscheiden der Schichten A, S, K oder K, S, Cxzeitgleich oder in einer beliebigen Reihenfolge,wobeii) das Herstellen unter der Einwirkung von Druck und/oder Wärme erfolgt, um zumindest die Schichten A und S und/oder die Schichten K und S unter dem Einfluss des Drucks und/oder der Wärme aneinander zu binden,und/oderii) bei dem Herstellen die Schicht K und/oder A durch Abscheiden auf der Schicht S gebildet wird.

Batteriezelle, Batterie und Fahrzeug

Resumen de: DE102024123622A1

Eine Batteriezelle (20) weist eine erste Elektrodenanordnung (51) und eine zweite Elektrodenanordnung (52) auf, wobei die erste Elektrodenanordnung (51) eine erste Aktivmaterialschichtanordnung (54) aufweist, wobei die erste Aktivmaterialschichtanordnung (54) eine erste Schicht (81) aufweist, wobei die erste Schicht (81) mindestens einen Anodenwerkstoff aufweist aus einer Anodenwerkstoffgruppe bestehend aus- Graphit- Silicium-Kohlenstoff, und- Silicium-Composite-Graphit, wobei auf mindestens einer Außenseite der ersten Schicht (81) zumindest bereichsweise eine zweite Schicht (83; 83A, 83B) angeordnet ist, welche zweite Schicht (83; 83A, 83B) vertikales Graphen aufweist, wobei das vertikale Graphen eine Dotierung aufweist.

METHOD AND DEVICE FOR DRYING ELECTRODE COATINGS

Resumen de: WO2026037453A1

The present invention relates to a method (100) for drying a pasty coating (211) of an electrode material on a strip-like electrode foil in a drying oven (200) with a variable drying rate. The invention further comprises a drying oven (200) with a transporting device (220) for guiding the electrode foil having the pasty coating (211) applied to a front surface through the drying oven (200) along a drying section (140) and with drying nozzles (240) arranged along the drying section (140) in the guiding direction.

POWER SYSTEMS FOR DATA CENTERS

Resumen de: WO2026038083A1

Systems and methods are described for powering a load, such as a data center, with renewable energy from a renewable energy source. When the renewable energy is greater than a demand of the load, excess renewable energy is used to power a hydrogen production device or charge a battery depending on whether or not the charge level of the battery satisfies an upper threshold charge level, respectively. When the renewable energy is less than the demand of the load and the charge level of the battery satisfies a lower threshold charge level, the load is powered with energy from the battery. When the renewable energy is less than the demand of the load and the charge level of the battery does not satisfy the lower threshold charge level, the load is powered and the battery is charged with energy generated by the hydrogen-based energy generator.

SAFETY DEVICE FOR AN ELECTRICITY STORAGE SYSTEM FOR A VEHICLE

Nº publicación: WO2026037587A1 19/02/2026

Solicitante:

AMPERE S A S [FR]
AMPERE S.A.S

Resumen de: WO2026037587A1

The present invention relates to an electricity storage system (1) for a vehicle, comprising a casing (2) and at least one electricity storage cell (3) arranged in the casing (2), and a thermal treatment circuit (4) configured to be flowed through by a cooling fluid, the thermal treatment circuit (4) comprising a circulation-inducing means (5) and a heat exchanger (6), the thermal treatment circuit (4) extending within the casing (2) so that the cooling fluid thermally treats the electricity storage cell (3), characterized in that the electricity storage system (1) comprises a safety device (8) comprising a safety valve (10) and a cyclone separation device (9) centered about an axis, the axis passing through the safety valve (10).