Almacenamiento en baterías

Dispositif de stockage d’énergie électrique, véhicule automobile et procédé associés

Resumen de: FR3167760A1

L’invention concerne un système de stockage d’énergie électrique (1) comprenant un boîtier (5), des cellules de stockage d’énergie électrique connectées entre deux bornes électriques. Selon l’invention, le boîtier comprend un réservoir (12) étanche pourvu d’une embouchure (13) par laquelle le réservoir est adapté à être rempli d’un liquide électriquement conducteur, et de deux conducteurs électriques (26) qui sont connectés électriquement respectivement aux deux bornes électriques et qui présentent chacun une partie disposée au sein dudit réservoir, à distance l’une de l’autre. Figure pour l’abrégé : Fig.1

Amélioration des propriétés de mise en forme d’un électrolyte solide sulfure pour la préparation de batteries tout solide préparées en voie sèche

Resumen de: FR3167759A1

Amélioration des propriétés de mise en forme d’un électrolyte solide sulfure pour la préparation de batteries tout solide préparées en voie sèche La présente invention concerne un procédé de préparation sans solvant d’une électrode, ou d’une couche d’électrolyte solide, comprenant les étapes suivantes : (a) préparation d’un mélange comprenant un électrolyte solide sulfure, un fluoropolymère et de la silice pyrogénée ; et (b) mise en forme du mélange sous forme de film. L’invention vise également une formulation sans solvant pour électrode ou couche d’électrolyte solide Figure pour l'abrégé : néant

Système de gestion d’une consommation en énergie électrique.

Resumen de: FR3167786A1

Titre de l’invention : Système de gestion d’une consommation en énergie électrique. La présente invention concerne un système de gestion (2) d’une consommation en énergie électrique comprenant au moins un moyen de stockage en énergie électrique (6), un réseau électrique local (4) et une unité de contrôle (8), l’unité de contrôle (8) étant configurée pour collecter au moins une donnée relative au niveau de charge du moyen de stockage en énergie électrique (6) et au moins une donnée relative à la consommation en énergie électrique du réseau électrique local (4), l’unité de contrôle (8) étant configurée pour piloter le transfert d’énergie électrique entre le moyen de stockage en énergie électrique (6) et le réseau électrique local (4). (Figure 1)

Procédé et installation de décharge d’une cellule électrochimique de stockage d’énergie.

Resumen de: FR3167762A1

Procédé et installation de décharge d’une cellule électrochimique de stockage d’énergie Procédé de décharge d’une cellule de stockage électrochimique d’énergie, la cellule comprenant : un empilement (3) logé au sein d’une enveloppe (4), l’empilement comportant une première électrode (5), un séparateur (7), une deuxième électrode (6), et des premier et deuxième collecteurs électriques (42, 43), le procédé comprenant une perforation comportant une formation d’au moins un trou débouchant (8) au travers de l’enveloppe (4), une connexion comportant une mise en contact d’au moins un dispositif électriquement conducteur (10) avec un premier collecteur électrique (42, 43), et une décharge de la cellule comprenant une première mise en connexion électrique dudit au moins un dispositif électriquement conducteur (10) avec un système de décharge électrique (45) et une deuxième mise en connexion électrique du système de décharge électrique (45) avec le deuxième collecteur électrique (42, 43), de manière à coupler électriquement en série le système de décharge électrique (45) et l’empilement (3). Figure pour l’abrégé : Fig.3

Bague pour cellule électrochimique cylindrique de batterie d’accumulateurs

Resumen de: FR3167765A1

L’invention concerne une bague (100) pour cellule électrochimique (10) cylindrique de batterie d’accumulateurs, comportant un corps annulaire (110) adapté à être engagé sur ladite cellule électrochimique. Selon l’invention, la bague comporte au moins une ailette (120) qui est réalisée au moins en partie dans un matériau conducteur électriquement et qui est mobile sur le corps annulaire entre une position escamotée et une position déployée dans laquelle elle fait davantage saillie à l’extérieur du corps annulaire qu’en position escamotée. Figure pour l’abrégé : Fig.3

Procédé et installation de décharge d’une cellule électrochimique de stockage d’énergie.

Resumen de: FR3167761A1

Procédé et installation de décharge d’une cellule électrochimique de stockage d’énergie Procédé de décharge d’une cellule électrochimique de stockage d’énergie, la cellule comprenant un empilement logé au sein d’une enveloppe de la cellule, l’empilement comportant successivement selon une direction d’empilement, au moins une première électrode, un séparateur et une deuxième électrode, le procédé comprenant une formation (S1) d’un trou débouchant au travers de l’enveloppe de sorte à former un accès à une zone de l’empilement, et une décharge (S2) de la cellule en exerçant un appui sur la zone sans atteindre le séparateur de sorte à réduire une épaisseur de l’empilement afin de transformer une énergie chimique stockée dans la cellule en une énergie thermique, l’épaisseur de l’empilement étant définie selon la direction d’empilement. Figure pour l’abrégé : Fig. 5

Module et assemblage pour batterie avec refroidissement de jeu de barres

Resumen de: FR3167769A1

L’invention concerne un module (M1) pour batterie comprenant un corps principal (11) ayant une première cavité (101) et une deuxième cavité (102), la première cavité (101) et la deuxième cavité (102) définissant respectivement une première surface interne (S1) et un premier volume intérieur (V1) et une deuxième surface interne (S2) et un deuxième volume intérieur (V2), - un premier connecteur électrique primaire (12) qui s’étend à partir de la première surface interne (S1) dans le premier volume intérieur (V1), et - un deuxième connecteur électrique primaire (13) qui s’étend à partir de la deuxième surface interne (S2) de la deuxième cavité (102) dans le deuxième volume intérieur (V2), le premier connecteur électrique primaire (12) et le deuxième connecteur électrique primaire (13) étant chacun configuré pour coopérer avec un connecteur électrique secondaire externe au module (M1, M2). L’invention concerne en outre un assemblage de deux modules ainsi qu’une batterie comprenant l’assemblage et un véhicule électrique comprenant la batterie. Figure 2

STACKING APPARATUS

Resumen de: WO2026081809A1

The present invention relates to the technical field of batteries. Disclosed is a stacking apparatus. The stacking apparatus comprises a stacking platform, a pressing plate, and a driving device. The stacking platform is configured for having electrode sheets placed thereon, and the electrode sheets stacked on the stacking platform include a first electrode sheet, a tab of the first electrode sheet having a first corner; the pressing plate has a flattening portion, which protrudes from the surface of the pressing plate; and the driving device is connected to the pressing plate, and is used for driving the pressing plate to be drawn out from the bottom of an electrode sheet in a direction away from the stacking platform and to press against the top of the electrode sheet. When the pressing plate presses against the top of the electrode sheet, the orthographic projection of the pressing plate on the plane where the stacking platform is located covers the orthographic projection of the first corner on the plane where the stacking platform is located; and the movement trajectory of the orthographic projection of the flattening portion on the plane where the stacking platform is located covers the orthographic projection of the first corner on the plane where the stacking platform is located. When the first corner is bent toward a side where the flattening portion is located, the flattening portion can, during movement, push the first corner outward to unfold the first corner, suc

CYLINDRICAL BATTERY DEVICE

Resumen de: WO2026081471A1

A cylindrical battery device. The cylindrical battery device comprises a case (1) and batteries (2), the batteries (2) are fixed in the case (1) by means of an adhesive layer, the adhesive layer includes a first adhesive layer (3), the first adhesive layer (3) is at least partially arranged between adjacent batteries (2), the first adhesive layer (3) comprises an inorganic foamed potting adhesive, and the first adhesive layer (3) satisfies the following relational expression: F=(100-H)/(d×(2-μ)×C)×k, wherein F is the thermal runaway rate of the inorganic foamed potting adhesive, and the value range of F is 0%-10%; H is the hardness of the cured inorganic foamed potting adhesive; C is the density of the cured inorganic foamed potting adhesive; d is the battery spacing, and the value range of d is 0.5-4 mm; μ is the flatness of battery casings, and the value range of μ is 0-1 mm; and k is a constant. The batteries (2) in the cylindrical battery device can be effectively supported, and the probability of thermal runaway can be reduced, thereby ensuring the insulation of the batteries (2), and improving the performance of the batteries (2).

COMPOSITE SEPARATOR AND LITHIUM-ION BATTERY

Resumen de: WO2026082000A1

In order to overcome the problem in the existing technology that a non-fluorinated separator binder has low bonding force, resulting in low bonding strength between an electrode sheet and a composite separator prepared and obtained by using the separator binder, a composite separator and a lithium-ion battery are provided. The composite separator comprises a base film, a non-conductive particle coating layer located on the surface of the base film, and a bonding layer located on the surface of the non-conductive particle coating layer. The bonding layer comprises a separator adhesive, the separator adhesive comprising a granular polymer, and the average particle size D1 of the granular polymer being 0.2-6μm. The non-conductive particle coating layer comprises non-conductive particles, and the average particle size D2 of the non-conductive particles is 0.1-2μm. The average particle size D1 of the granular polymer and the average particle size D2 of the non-conductive particles satisfy: D1/D2≥0.4. The composite separator has both excellent air permeability and bonding strength with an electrode sheet.

Cleaning apparatus

Resumen de: AU2026202568A1

The present invention relates to a cleaning apparatus. The cleaning apparatus according to one aspect comprises: a suction inlet; a suction motor which generates suction power for allowing air to be sucked in along the suction inlet and comprises a rotationally operating impeller; a dust separation unit provided with one or more cyclone units which generate cyclonic flow so as to separate dust from air which has been introduced through the suction inlet; a dust container which stores dust separated by the dust separation unit and is positioned under the suction motor; a battery which supplies power the suction motor and is positioned behind the dust container; and a handle disposed behind the suction motor, wherein the rotation axis of the impeller and the axis of the cyclonic flow extend vertically, and the extension line of the rotational axis of the impeller passes through the one or more cyclone units. pr p r

POWER STORAGE MODULE

Resumen de: US20260112764A1

0000 A power storage module includes a module main body in which electrodes are stacked in a first direction, a frame, and a pressure control valve attached to the frame having first communication holes in communication with internal spaces. The pressure control valve includes a wall body that has second communication holes in communication with the first communication holes, respectively, a protrusion that surrounds each of the second communication holes separately, the second communication holes being opened at a first wall surface, and valve bodies that close the second communication holes. A recess is formed to be recessed in a direction away from the frame and along the valve bodies, in a region of the first wall surface surrounded by the protrusion and having an opening of one of the second communication holes, the region not overlapping with the valve bodies as viewed in a second direction.

BATTERY

Resumen de: US20260112702A1

0000 Provided is an electrolyte solution including a compound represented by Formula 1, 0000 where m and n are integers ranging from 0 to 3, which are not 0 simultaneously; p is an integer ranging from 1 to 5; R<0 >is single bond or methylene; R<1 >is hydrogen, halogen, hydrocarbyl with 1 to 5 carbon atoms or halogenated hydrocarbyl with 1 to 5 carbon atoms; and R<2>, R<3>, and R<4 >are each independently 0000  A mass percentage of a transition metal in a negative electrode active material is M; a specific surface area of the negative electrode active material is B m<2>/g; a ratio of a total mass of the electrolyte solution to a discharge capacity of the battery is N g/Ah; and a mass percentage of the compound represented by Formula 1 in the electrolyte solution is C1, satisfying: 0000 0.3 ≤ B * M 3 N * C ⁢ 1 ≤ 5.6 .

Battery SOH Estimating Apparatus and Method

Resumen de: US20260110752A1

A battery SOH estimating apparatus includes a battery information obtaining unit configured to obtain battery information including at least one of voltage, current, temperature, and SOC; and a control unit configured to calculate deterioration information for the battery from the battery information, preset reference information and preset acceleration information based on a preset deterioration model, and estimate SOH for the battery from the deterioration information based on a preset non-linear estimation model.

POSITIVE ELECTRODE MATERIAL AND PREPARATION METHOD THEREOF, AND LITHIUM-ION BATTERY

Resumen de: US20260112648A1

A positive electrode material and a preparation method thereof, and a lithium-ion battery. The positive electrode material includes a core, an oxygen-absorbing layer, and a passivation layer in sequence from inside to outside; the core includes an oxide composed of Ni, Li, a metal element M, and a non-metal element Q; the metal element M includes at least one of Mg, Al, Zr, Ca, Ti, Sr, Y, Nb, Mo, W, Ta, or Ce; the non-metal element Q includes at least one of F, B, P, or Si; the oxygen-absorbing layer is an unsaturated oxide including a coating element L; the coating element L includes at least one of V, Ga, In, Sn, Bi, Ce, Pr, or Sb; the passivation layer is a compound including element F.

BATTERY MAIN BOX, CHARGE-DISCHARGE CIRCUIT, AND POWERED DEVICE

Resumen de: US20260112717A1

0000 A battery main box, a charge-discharge circuit, and a powered device. The battery main box includes two first electrode circuits and one second electrode circuit. A switch is connected between the two first electrode circuits. The two first electrode circuits are respectively configured to be connected to two powered loads and two batteries, and the second electrode circuit is configured to be respectively connected to the two powered loads and the two batteries. The battery main box in the embodiments of the present application includes the two first electrode circuits and the one second electrode circuit, and the switch is connected between the two first electrode circuits.

CYLINDRICAL BATTERY AND BATTERY PACK

Resumen de: WO2026081747A1

Provided in the present application are a cylindrical battery and a battery pack. The cylindrical battery comprises a case and a cell arranged in the case, wherein the cell comprises a first tab and a second tab, which are both located on the same side of the cell and have opposite polarities; the case comprises a circumferential side wall, and a first end wall and a second end wall which are located at two ends of the circumferential side wall; and a terminal assembly is provided on the first end wall, a first output terminal is provided on the case of the cylindrical battery, a second output terminal is provided on the first end wall, and a first insulation layer and a second insulation layer are provided on the outer peripheral surface of the cell. During the use of the cylindrical battery, significant heat is generated at the connections of the first tab and the second tab with the terminal assembly. The first insulation layer has a high heat deflection temperature, and can thus withstand the high temperature at the connections, so as to prevent the first insulation layer from melting at high temperature and thus detaching from the cell.

HOUSING SYSTEM AND BATTERY CELL COMPRISING THE SAME

Resumen de: US20260112738A1

Battery cell (10) and housing system (14) for a battery cell (10) comprising a housing body with a bottom and lateral walls, wherein the bottom and lateral wall comprise a conductive layer (22) comprising a metal material, and the lateral wall further comprises a barrier layer wherein the barrier layer surrounds and is in contact surface with the conductive layer, the bottom being devoid of the barrier layer, and wherein the thermal resistance of the barrier layer is higher than the thermal resistance of the conductive layer.

ELECTROLYTE SOLUTION OF LITHIUM-ION BATTERY AND LITHIUM SECONDARY BATTERY

Resumen de: US20260112696A1

0000 An electrolyte solution of a lithium-ion battery and a lithium secondary battery. The electrolyte solution of a lithium-ion battery includes an organic solvent, a lithium salt and an additive, wherein the organic solvent includes fluorinated ethylene carbonate accounting for at least 5% of the total mass of the electrolyte solution, the additive comprises an additive A containing one or more compounds which have three or more carbon-carbon double bonds, and the electrolyte solution does not include a compound containing a sulfonyl group. The electrolyte solution of a lithium-ion battery is not only more environmentally friendly, but can also improve the swelling of the battery during the formation and high-temperature storage thereof, the discharge capacity of the battery, and the self-discharge performance of the battery under a high voltage.

BATTERY MODULE OF THE TYPE THAT CAN BE DISASSEMBLED AND BATTERY PACK OBTAINED ASSEMBLING AT LEAST TWO SUCH BATTERY MODULES

Resumen de: US20260112781A1

A battery module including multiple cells arranged according to at least one row, each cell having a positive terminal and a negative terminal positioned at opposite ends. A first and a second connection bar, or busbar, are provided electrically connected to the positive terminals and to the negative terminals of the cells. Support bodies are provided with respective conductive elements which include a respective connection portion and multiple contact portions. An engagement group is provided that removably mechanically engages the support bodies in a predetermined working position, in which the connection portions are mechanically forced to be arranged in contact with the first, or the second, connection bar, and each contact portion to be arranged in contact, with a respective positive terminal or with a respective negative terminal such that the electrical connection between the first and the second connection bar and the plurality of cells.

FIRE DETECTOR AND BATTERY PACK

Resumen de: AU2024337353A1

A fire detector and a battery pack. The fire detector comprises a mounting end cover (1), a fire sensing assembly (2), and a protective cover (3). The mounting end cover (1) is detachably provided outside a battery pack body (100). The fire sensing assembly (2) is located inside the battery pack body (100) and is detachably connected to the mounting end cover (1). The protective cover (3) is detachably connected to the side of the mounting end cover (1) provided with the fire sensing assembly (2), the protective cover (3) covers the fire sensing assembly (2), and the protective cover (3) is provided with detection holes (31). The interior of the battery pack body (100) is communicated with the interior of the protective cover (3) by means of the detection holes (31).

SECONDARY BATTERY

Resumen de: US20260112638A1

A secondary battery that achieves higher conductivity of a positive electrode and has higher capacity is provided. The secondary battery includes a positive electrode that includes a positive electrode active material, a first conductive material, and a second conductive material whose shape is different from that of the first conductive material. The positive electrode active material includes lithium cobalt oxide containing magnesium in its surface portion. The weight of the second conductive material is lower than or equal to the weight of the first conductive material. The second conductive material forms an assembly and has a portion sticking to the positive electrode active material.

FILTRATION DEVICE AND FILTRATION SYSTEM

Resumen de: US20260108831A1

A filtration device according to the present invention includes: a filter chamber 3 to which slurry 40 containing a particle and a liquid having different electric charges is supplied through a supply line; a first electrode group 10A or a second electrode group 10B including cathode electrodes 11, 12 or anode electrodes 13, 14 provided on both side surfaces of the filter chamber to face each other and configured to separate the particle 42 and the liquid 41 in the slurry 40 into separated substances by an electric field action; and a first discharge chamber 4 and a second discharge chamber 5 provided for the first electrode group 10A and the second electrode group 10B to face the filter chamber 3 and configured to allow discharging of the separated substances.

ENERGY STORAGE DEVICE

Resumen de: US20260112749A1

An energy storage device includes: an electrode assembly formed by stacking a plurality of plates and elongated in a predetermined direction intersecting with a stacking direction; a container that accommodates the electrode assembly and is elongated in the predetermined direction; and a positive electrode terminal and a negative electrode terminal that are electrically connected to the electrode assembly. The electrode assembly includes: an electrode assembly body; and a pair of connecting portions that protrudes from one end portion of the electrode assembly body in the predetermined direction, and is electrically connected to the positive electrode terminal and the negative electrode terminal. A protruding portion on which the pair of connecting portions is disposed is formed at one end portion of the container in the predetermined direction.

NONAQUEOUS ELECTROLYTIC SOLUTION AND NONAQUEOUS ELECTROLYTIC SOLUTION BATTERY INCLUDING NONAQUEOUS ELECTROLYTIC SOLUTION

Nº publicación: US20260112701A1 23/04/2026

Solicitante:

MU IONIC SOLUTIONS CORP [JP]

Resumen de: US20260112701A1

0000 The present invention relates to a nonaqueous electrolytic solution comprising an electrolyte, a nonaqueous solvent, a compound represented by general formula (I), and at least one specific anion-containing compound selected from an anion-containing compound having a P═O bond and a P—F bond, an anion-containing compound having an S═O bond and an S—F bond, and an alkyl sulfate anion-containing compound, in which the mass ratio of the compound represented by the general formula (I) to the specific anion-containing compound satisfies a specific range. The present invention also relates to a nonaqueous electrolytic solution battery comprising a negative electrode and a positive electrode capable of occluding and releasing metal ions, and the nonaqueous electrolytic solution. 0000