Emmagatzematge en bateries

DISPOSITIF D'EXTINCTION D'INCENDIE POUR VÉHICULE ÉLECTRIQUE

Resumen de: FR3167059A1

DISPOSITIF D'EXTINCTION D'INCENDIE POUR VÉHICULE ÉLECTRIQUE L’invention concerne un dispositif d'extinction d'incendie pour véhicule électrique (100) comprenant un canal de cavité structural (22) formé dans un compartiment de batterie du véhicule électrique, et un connecteur (30) qui prolonge le canal jusqu'à une surface de carrosserie du véhicule (21). Dans un exemple, le connecteur est relié à un connecteur correspondant (40), une conduite, un panneau de commande (60) et une unité d'alimentation externe en agent extincteur (70) à l'extérieur du véhicule. Un détecteur envoie un signal au panneau de commande en cas de détection d'un incendie, et une vanne de conduite d'agent extincteur s’ouvre automatiquement pour libérer un agent à l'intérieur. Dans un autre exemple, le connecteur est relié à un connecteur correspondant, une conduite et une unité d'alimentation externe de source d’eau d'extinction d'incendie à l'extérieur du véhicule, et une conduite de source d'eau d'extinction d'incendie est ouverte manuellement. Figure à publier avec l'abrégé : Fig. 1

METHOD OF SOLVENT AND ELECTROLYTE EXTRACTION AND RECOVERY OF ELECTRODE POWDER IN LITHIUM-ION RECYCLING PROCESS

Resumen de: US20260100434A1

A method of solvent and electrolyte extraction and recovery of electrode powder from lithium-ion cells, from a batch mixture containing solvents, the electrolyte and anode and cathode powders, in which the electrolyte is separated from the anode and cathode powder with a solvent mixture, while the solvent mixture is separated from the electrolyte through vacuum evaporation. The subsequent portions of the anode and cathode powder are separated from the subsequent batch portions fed to a reactor, obtaining the subsequent portions of the solvent mixture with the electrolyte. The solvents are separated from the electrolyte salts and added to the previously recovered solvents from the previous portions of the mixture of solvents and of the electrolyte. The obtained solvent mixture is returned to the reactor and subjected to extraction, recovering the subsequent quantities of the solvent mixture with the electrolyte, separated from the cathode and anode powder.

BATTERY PACK AND VEHICLE INCLUDING THE SAME

Resumen de: US20260100449A1

0000 Discussed is a battery pack that includes a battery module, and a pack housing configured to accommodate the battery module The pack housing may include a lower case to accommodate the battery module, an upper case coupled to the lower case to cover an upper opening of the lower case, a gasket provided on an interface between the lower case and the upper case, and an insulating member disposed between the battery module and the gasket.

DOUBLE-WALL BATTERY ENCLOSURE TO PROVIDE HEAT TRANSFER

Resumen de: US20260100437A1

A double-wall enclosure for thermal management of a battery pack that includes an inner hollow structure having an internal and external surface; the inner hollow structure having one or more battery modules located therein; and an outer hollow structure having an interior surface, wherein the external surface of the inner hollow structure either contacts the interior surface of the outer hollow structure or forms at least one channel with the interior surface of the outer hollow structure through which a heat transfer fluid flows. The inner hollow structure is formed of a polymer material, such that the inner hollow structure is in thermal contact with the heat transfer fluid in order to provide for the thermal management of the battery pack.

ALKALINE BATTERY AND METHOD FOR MANUFACTURING ALKALINE BATTERY

Resumen de: US20260100422A1

0000 Alkaline batteries including a positive electrode, a negative electrode, a separator, and an electrolytic solution which are accommodated in a container are provided. The electrolytic solution is a potassium hydroxide aqueous solution having a concentration of 40% to 50%. The negative electrode consists of a gel-like negative electrode mixture containing a negative electrode active material and an alkaline aqueous solution. The alkaline aqueous solution contains potassium hydroxide and sodium hydroxide in a molar ratio range of 89:11 to 96:4. The positive electrode consists of a positive electrode mixture including a positive electrode active material containing silver oxide and manganese dioxide, and a blending ratio of manganese dioxide in the positive electrode mixture is 25% to 50% by mass.

CARBON NANOTUBE DISPERSION

Resumen de: US20260098174A1

0000 A carbon nanotube dispersion may have excellent dispersibility. Such a carbon nanotube dispersion may include at least carbon nanotubes, oxidized cellulose nanofibers, and water, wherein, of the oxidized cellulose nanofibers, 85% or more of the oxidized cellulose nanofibers have a fiber length of 50 nm to 250 nm.

BATTERY PACK AND DEVICE INCLUDING THE SAME

Resumen de: US20260100463A1

A battery pack according to an embodiment of the present disclosure includes one or more first battery modules, each including a plurality of battery cells, and one or more second battery modules, each disposed adjacent to the first battery modules and including a plurality of battery cells, wherein the first battery modules and the second battery modules are different from each other in a maximum state of charge (SOC).

Apparatus for Winding a Sheet for Manufacturing a Secondary Battery

Resumen de: US20260100401A1

An apparatus for winding a sheet for manufacturing a secondary battery includes at least two bobbins and a sensor. The at least two bobbins include a traveling bobbin on which a winding process proceeds and a standby bobbin that is in a standby state during the winding process; The sensor is disposed apart from the standby bobbin by a predetermined distance, and identifies the position where the sheet wound onto the traveling bobbin will be automatically attached to the standby bobbin. When the winding process on the traveling bobbin is completed, the sheet that was wound by the traveling bobbin is attached to the outer peripheral surface of the standby bobbin, and subsequently the winding process is performed.

Electrode Assembly and Secondary Battery Including the Same

Resumen de: US20260100424A1

0000 The present invention relates to an electrode assembly and a secondary battery including same. The electrode assembly according to an embodiment of the present invention is formed by a cathode, a separator, and an anode which are wound together, and may comprise a protective member which is arranged to face an end of at least one of the cathode and the anode and in which a flame retardant is filled.

Apparatus and Method for Diagnosing Battery Cell

Resumen de: US20260098908A1

0000 An apparatus and a method for diagnosing a battery cell. The apparatus may include a reference cell module including at least one reference cell composed of a super-capacitor, a measuring device configured to measure a reference impedance of the reference cell and a battery impedance of the battery cell, and a processor configured to compare the battery impedance with the reference impedance to determine whether there is an abnormality in the battery cell.

VALUABLE METAL PRODUCTION METHOD

Resumen de: US20260100433A1

0000 Provided is a method which makes it possible to suppress wear of a treatment furnace, and to safely and efficiently collect valuable metals from raw materials including waste lithium-ion batteries and the like. This method is for producing a valuable metal from a raw material including the valuable metal and comprises: a preparation step for preparing a raw material including at least lithium (Li), aluminum (Al), and a valuable metal; a reduction melting step for subjecting the raw material to a reduction melting treatment to obtain a reduced product including a slag and an alloy containing the valuable metal; and a slag separation step for separating the slag from the reduced product to collect the alloy. The preparation step and/or the reduction melting step include adding, to the raw material, a flux containing calcium (Ca), and also adding thereto magnesia (MgO).

POSITIVE ELECTRODE FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERIES, NONAQUEOUS ELECTROLYTE SECONDARY BATTERY USING SAME, AND POSITIVE ELECTRODE SLURRY FOR POSITIVE ELECTRODES OF NONAQUEOUS ELECTROLYTE SECONDARY BATTERIES

Resumen de: US20260100374A1

0000 A disclosed positive electrode is a positive electrode for a nonaqueous electrolyte secondary battery. The positive electrode includes a positive electrode mixture layer. The positive electrode mixture layer contains a positive-electrode active material, a conductive material, a fluorine-containing polymer, and a dispersant. The positive-electrode active material includes a composite oxide represented by a composition formula LiNiM<(1-x)>O<2-δ> (where x, y, and δ satisfy 0.6≤x≤1, 0

BATTERY PACK

Resumen de: US20260100444A1

0000 A battery pack includes: battery cells, each including first and second end portions that are opposite each other in a length direction; a case having an accommodation space in which the battery cells and a fluid to cool the battery cells are configured to be accommodated, the case including first and second covers respectively covering the first and second end portions; first and second tab plates respectively on the first and second covers and connected to the first and second end portions; a circuit board on the first tab plate; and a first lead and a second lead through which the first and second tab plates are connected to the circuit board, the first and second leads connected to a first side portion of the circuit board. An arrangement of the leads connected to electrodes of the battery cells is improved, and heat is efficiently dissipated from a switch device.

NEGATIVE ELECTRODE ACTIVE MATERIAL FOR LITHIUM SECONDARY BATTERY AND LITHIUM SECONDARY BATTERY COMPRISING THE SAME

Resumen de: US20260100352A1

0000 A negative electrode active material for a lithium secondary battery, the negative electrode active material including, based on 100 parts by weight of the total negative electrode active material, 5 parts by weight to 20 parts by weight of a first carbon-based particle, 55 parts by weight to 90 parts by weight of a second carbon-based particle, and 1 part by weight to 40 parts by weight of a silicon-based particle, wherein the specific surface area of the first carbon-based particle is 1.5 m<2>/g to 4.5 m<2>/g, the specific surface area of the second carbon-based particle is 0.4 m<2>/g to 1.5 m<2>/g, and the specific surface area of the first carbon-based particle is greater than the specific surface area of the second carbon-based particle, and capable of solving the problem of lifespan deterioration which may be caused by the use of a silicon-based particle as a negative electrode active material.

ELECTRONIC VAPING DEVICE HAVING FORMULATION LEVEL INDICATOR

Resumen de: US20260097173A1

The e-vaping device includes a vaporizer assembly, which includes a heating element, a pre-vapor formulation reservoir, a pre-vapor formulation level indicator including a plurality of discrete indicator segments, and at least one processor. The pre-vapor formulation reservoir may be configured to contain a pre-vapor formulation and the at least one processor may be configured to determine a difference between a first duty cycle of power supplied to the heating element and a second duty cycle of power supplied to the heating element; and adjust the indicator based on the determined duty cycle difference.

IONIC CYCLIC NITROXYL RADICAL OLIGOMERS

Resumen de: US20260100415A1

Ionic cyclic nitroxyl radical oligomers, methods of making the ionic cyclic nitroxyl radical oligomers, and electrochemical cells, such as aqueous organic redox flow batteries (AORFBs) that use the ionic nitroxyl radical oligomers as catholytes are provided. The oligomers are larger than individual cyclic nitroxyl radical molecules, but maintain a high density nitroxyl radical groups within the molecule. As a result, when the oligomers are used as catholytes in an AORFB, they are able to reduce catholyte permeation through the ion-conducting membrane, while providing a high volumetric capacity and cycling stability.

Unit Cell and Battery Cell Including the Same

Resumen de: US20260100470A1

0000 A unit includes an electrode positioned between a first separator and a second separator in a stack. A first adhesive is positioned between the electrode and at least one of the first and second separators, and a second adhesive is positioned between the first separator and the second separator. The first adhesive composition has a degree of dispersion in an electrolyte that is larger than a degree of dispersion of the second adhesive composition in the electrolyte.

Cathode with Layers of Anode Reductant and Solid-Electrolyte Interphase

Resumen de: US20260100349A1

0000 Described is a lithium-sulfur electrochemical cell in which the anode and the cathode are each equipped with a respective solid-electrolyte interphase (SEI) layer that inhibits lithium side reactions. On the cathode side, the SEI layer inhibits the shuttle effect by retaining soluble polysulfides within a cathode active layer while releasing and admitting lithium ions to and from the electrolyte. The cathode SEI is deposited, during cell formation, by depositing a layer of an anode reductant (e.g., metallic lithium) on the surface of the cathode. The resultant electrically conductive layer allows electrons to reduce adjacent electrolyte and form the cathode SEI from electrolyte decomposition products.

BATTERY MODULE AND BATTERY PACK INCLUDING THE SAME

Resumen de: US20260100446A1

A battery module including an upper battery cell stack and a lower battery, each of the upper and lower battery cell stacks including a plurality of battery cells; a cooling flow path located between the upper battery cell stack and the lower battery cell stack; a housing for the upper battery cell stack and the lower battery cell stack; an inlet port for supplying a refrigerant to the cooling flow path; and an outlet port for discharging the refrigerant from the cooling flow path, where the inlet and outlet ports are located opposite to each other, so that the refrigerant flows in one direction in the cooling flow path. A longitudinal direction of each of the plurality of battery cells is parallel to the one direction of flow of the refrigerant.

BATTERY MODULE

Resumen de: US20260100459A1

A battery module for a vehicle, in particular for an aircraft, comprises two end plates and a cell stack comprising an arrangement of several interconnected battery cells, in particular pouch cells, that are arranged in a row along a stacking direction, wherein the cell stack is sandwiched between the two end plates in the stacking direction, wherein the battery module further comprises a separate tube-like enclosure comprising a heat insulating material, the tube-like enclosure having a front opening and a back opening that are closed by the end plates, so that the tube-like enclosure and the two end plates form a housing in which the cell stack is accommodated.

PORTABLE HEATER WITH INTERCHANGEABLE BATTERY

Resumen de: US20260098646A1

0000 The present disclosure relates to portable forced air heaters and radiant heaters. Portable air forced air heaters include a blower, a blower housing, a burner disposed within the burner housing, a fuel tank in fluid communication with the burner, a fan pump and a battery connector. The battery connector of this disclosure allows for different batteries with different distinguishing features to be used.

BATTERY PACK AND DEVICE INCLUDING THE SAME

Resumen de: US20260100475A1

0000 A battery pack includes a plurality of battery modules; a vent frame disposed along the edges of the plurality of battery modules; and a housing accommodating the plurality of battery modules and the vent frame, wherein the vent frame includes a pair of vertical beams formed parallel to a first direction and a pair of horizontal beams formed parallel to a second direction intersecting the first direction, the vertical beam and the horizontal beam each having a shape of a tube and including a cover formed on the vertical beam or the horizontal beam in a length direction, and a passage surrounded by the cover for gas to pass through.

POSITIVE ELECTRODE ACTIVE MATERIAL, POSITIVE ELECTRODE, SECONDARY BATTERY, ELECTRONIC DEVICE, AND VEHICLE

Resumen de: US20260100360A1

A positive electrode active material with high charge and discharge capacity is provided. A positive electrode active material with high charge and discharge voltage is provided. A secondary battery which hardly deteriorates is provided. A highly safe power storage device is provided. A novel secondary battery is provided. The positive electrode active material contains cobalt, oxygen, and fluorine and includes a bond of the cobalt and the fluorine in a surface portion or the vicinity of a grain boundary. By having the bond with fluorine, at least part of cobalt is high-spin (paramagnetic) Co2+. Thus, in ESR analysis, the spin concentration at 113 K is higher than the spin concentration at 300 K by 1.1×10−5 spins/g or more.

NEGATIVE ELECTRODE AND SECONDARY BATTERY INCLUDING THE SAME

Resumen de: US20260100359A1

Provided are a negative electrode, which includes a current collector and a negative electrode active material layer disposed on the current collector, wherein the negative electrode active material layer includes a conductive material, a negative electrode active material, and a binder, the negative electrode active material includes a silicon-based active material having a convexity of 0.8 or more as measured using a particle shape analyzer, and the convexity is defined by the following Formula 1, and a secondary battery including the negative electrode.Convexity⁢(Cx)=Convex⁢hull⁢perimeter⁢(Pc)/Actual⁢
perimeter⁢(P)Formula⁢1

SENSING ASSEMBLY AND BATTERY MODULE COMPRISING THE SAME

Nº publicación: US20260100430A1 09/04/2026

Solicitante:

SK ON CO LTD [KR]

Resumen de: US20260100430A1

Provided are a more easily assembled sensing assembly and a battery module comprising the same by having a simplified process through a connection structure between a terminal portion and a signal connection portion which are respectively coupled to a case and lead portions of a battery cell, thereby solving a problem that an additional process is necessary for a conventional sensing block to be coupled to leads of the secondary batteries after being coupled to a case.