Almacenamiento en baterías

BRACKET ASSEMBLIES, WIRING HARNESS INTEGRATION ASSEMBLIES, AND BATTERY MODULES

Resumen de: US2024421414A1

Disclosed herein are a bracket assembly, a wiring harness integration assembly, and a battery module. The bracket assembly includes a wiring harness bracket and a fixing bracket that are detachably connected to each other, the wiring harness bracket is configured to mount an acquisition wiring harness, a side of the wiring harness bracket is provided with a mounting portion for mounting a connector, a first connecting portion is protrudingly arranged on the mounting portion, the mounting bracket includes a fixing portion and a second connecting portion, the fixing portion is used for mounting the connector, and the second connecting portion is detachably connected to the first connecting portion.

FASTENING DEVICE AND BATTERY PACK INCLUDING THE SAME

Resumen de: US2024421411A1

A fastening device of a battery pack that fastens an electrical connection between a battery module and a circuit board managing the battery module, the fastening device including a substrate including a plurality of fastening holes, a plurality of connection circuit boards coupled to a surface of the substrate facing the circuit board and electrically connecting the battery module and the circuit board when in contact with the circuit board, and a plurality of fastening hooks fastened to the plurality of fastening holes capable of fixing a position of the substrate so that the plurality of connection circuit boards come into contact with the circuit board, the plurality of connection circuit boards each respectively including a first end portion electrically connected to the battery module, and a second end portion coupled to the substrate and electrically connected to the circuit board when in contact with the circuit board.

Power Module Support Case and Method

Resumen de: US2024421408A1

A power module support case is provided having an encasement with a cavity configured to house a power module, such as a battery, having a forward mounting bracket and a rearward mounting bracket of a quick coupling assembly for mating and de-mating the power module from both a service vehicle and a user vehicle. A heater and a shock mitigation device are also provided to enhance performance of the power module. A method of mating and de-mating such a power support module is also provided.

ENERGY STORAGE SYSTEM

Resumen de: US2024421403A1

An energy storage system includes a battery module including a plurality of secondary battery cells and an electrode tab disposed on one or both sides; and a housing accommodating a module stack in which the plurality of battery modules are stacked, wherein the housing includes a first cover disposed to oppose at least one side surface of the module stack on which the electrode tab is disposed, and a second cover disposed to oppose at least one of the side surfaces of the module stack on which the electrode tab is not disposed, and wherein a flame passage is formed between the first cover and the module stack, and a cooling passage is formed between the second cover and the module stack.

SEALING TAPE FOR RECHARGEABLE LITHIUM BATTERY AND RECHARGEABLE LITHIUM BATTERY INCLUDING THE SAME

Resumen de: US2024421432A1

A sealing tape for a rechargeable lithium battery includes an inorganic sealing tape including an adhesive layer and a hard coating layer on the adhesive layer, wherein the adhesive layer: has adhesiveness, and has a thickness change rate (A) according to Equation 1 of greater than or equal to about 100% and less than or equal to about 120%, and the hard coating layer: does not have adhesiveness, and has a thickness change rate (B) according to Equation 2 of greater than or equal to about 30% and less than or equal to about 70%.

BATTERY AND ELECTRICAL APPARATUS

Resumen de: US2024421376A1

A battery and an electrical apparatus are provided. The battery includes a box, at least two battery cells and a reinforcing member. The box has an accommodating cavity, and the at least two battery cells are accommodated in the accommodating cavity. Each battery cell includes an electrode assembly and an electrode terminal which are electrically connected to each other. The battery cell includes a first wall, and the first wall is the wall with the largest area in the battery cell. The reinforcing member is connected to the at least two battery cells, wherein the reinforcing member is thermally conductively connected to the first walls of the at least two battery cells.

BATTERY PACK AND METHOD OF MANUFACTURE

Resumen de: US2024421365A1

A battery pack comprises a set of battery cells, a battery cell holder holding the battery cells, at least one battery strap having a first end connected to a terminal of one of the battery cells and a second end extending from the battery cell holder, a printed circuit board having a first side and a second side, components mounted on the second side of the printed circuit board, a trace on the second side of the printed circuit board extending from one components to a contact connected to the trace and mated with the second end of the at least one battery strap. Multiple vias extend from the first side to the second side, and the contact comprises a first portion having a through hole and a leg integrally formed with and approximately perpendicular to the first portion, the leg extending from the first side of the PCB to the second side of the PCB through a first via, the trace extending from the first via, the leg soldered to the second side of the PCB and the via and the through hole aligned with a second via adjacent to the first via, the through hole sized and configured to receive a PCB end of the strap, the PCB end of the strap soldered to the contact.

BATTERY CELL DISCHARGE SYSTEM AND METHOD OF DISCHARGING CELLS

Resumen de: US2024421367A1

Forced discharge of Li-ion batteries for recycling extracts residual electrical energy from the battery cells to avoid sudden and unexpected release of residual energy during recycling. A battery cell containment device applies a physical restraint to one or more battery cells, and engages positive and negative terminals on the cells for electrical communication. A cooling medium flows through the containment for thermal transfer of excess heat generated during the discharge. Depending on the residual charge remaining in the battery cells, excess electrical energy is discharged thought the positive and negative terminals to a state of zero charge. A reverse voltage forces current through the anode to being the battery to a zero-energy state. The reverse voltage continues until internal short circuits resulting from degradation of current collectors in the battery render it benign.

BATTERY CELL, BATTERY, AND ELECTRICITY CONSUMING APPARATUS

Resumen de: US2024421371A1

The present application discloses a battery cell, a battery, and an electricity consuming apparatus. The battery cell includes a shell and a first detection assembly. The first detection assembly is disposed on the shell, and the first detection assembly is configured to detect status information of the battery cell. In the technical solution of embodiments of the present application, the first detection assembly is disposed in the battery cell, which can obtain the operating status information of the battery cell, monitor the battery cell, and find abnormal conditions of the battery cell during operation in a timely manner, thereby improving the operational stability of the battery cell and the safety of the battery.

Rechargeable battery having a spring-loaded connection apparatus

Resumen de: US2024421404A1

A rechargeable battery, preferably as a releasable energy supply for a power tool, comprising at least one energy storage cell and a connection apparatus for releasably connecting the rechargeable battery to a power tool, the connection apparatus comprising at least one first, second and third connection element. The connection apparatus includes a holding and receiving apparatus for at least partially receiving the first, second and third connection elements, wherein the first and second connection elements are connected to the holding and receiving apparatus by at least one compensating element in such a way that a relative movement in at least one direction between the first and second connection element and the holding and receiving apparatus can be compensated for, and wherein the first and second connection elements are connected to the third connection element in such a way that a relative movement in at least one direction between the third connection element and the holding and receiving apparatus can be compensated for.

BATTERY MODULE TO WHICH CONNECTOR HAVING IMPROVED FLAME RETARDANCY IS APPLIED

Resumen de: US2024421398A1

A battery module includes a cell assembly having battery cells; a module case accommodating the cell assembly and having a connector mounting hole at one side and a connector assembly connected to a circuit board provided inside the module case and having at least a portion exposed to the outside of the module case through the connector mounting hole. The connector assembly includes a connector housing having connector pins inside and having at least a portion exposed to the outside of the connector mounting hole and a flame retardant block formed of a metal material and surrounding the circumference of the connector housing inside the module case. The flame retardant block has a coating layer of an incombustible material on the surface facing the inside of the module case.

LITHIUM SECONDARY BATTERY

Resumen de: US2024421291A1

A lithium secondary battery includes a positive electrode, and a negative electrode in which deposition and dissolution reactions of lithium metal occur. The negative electrode includes a negative electrode layer. The negative electrode layer contains, as a negative electrode active material, an alloy of the lithium metal and dissimilar metal. An element percentage of lithium element in the alloy is 40.00 atomic % or more and 99.97 atomic % or less when the lithium secondary battery is fully charged.

New anode material in lithium and sodium batteries

Resumen de: US2024421308A1

The invention pertains to the use of porous, chemically interconnected, carbon nanofibres-comprising carbon networks as electrochemically active material in the anode of lithium or sodium batteries. It has been found that said carbon nanofibres-comprising carbon networks can beneficially be used in the anode of lithium or sodium batteries when added in an amount of 10-100 wt %. The benefits include a high capacity, high lifetime (stability over extended cycling), high charge and discharge rate and being resilient during manufacture and use. The porous, chemically interconnected, carbon nanofibres-comprising carbon networks can be used in the anode of lithium or sodium batteries of many areas of technology, such as smartphones, laptops and electric and hybrid vehicles.

OLIVINE COMPOSITE CATHODE MATERIAL, PREPARATION METHOD AND APPLICATION THEREOF, AND LITHIUM-ION BATTERY

Resumen de: US2024421302A1

Provided are an olivine composite cathode material, a preparation method, and a lithium-ion battery. The composite cathode material includes a matrix and a composite phase. The matrix has a composition represented by formula I: LixM1yMnzFe1-z-uM2u(PO4)w(ROa)bCv, where 0.5≤x<1.3, 0≤y≤0.5, 0

SOLID STATE ELECTROLYTES

Resumen de: US2024421350A1

A product, according to one general aspect, includes solid state electrolyte particles, each particle individually having a coating thereon, the coating comprising a first metal oxide in a first layer and a second metal oxide in a second layer. The first and second metal oxides are different. A method, according to one general aspect, includes fabricating a product using a powder of solid state electrolyte particles, each particle being coated with a coating formed via 15 cycles or less of atomic layer deposition, the coating comprising a first metal oxide in a first layer and a second metal oxide in a second layer. The first and second metal oxides are different.

LITHIUM METAL ELECTRODE, METHOD OF MANUFACTURING A LITHIUM ION ELECTRODE AND LITHIUM ION BATTERY

Resumen de: US2024421320A1

The present invention concerns a lithium metal electrode, in particular for a lithium ion battery, comprising a three-dimensional network of metal fibers, wherein the metal fibers are directly in contact to one another, wherein the metal fibers have a thickness and/or width in the range of 0.25 to 200 μm, and wherein metallic lithium is provided on the surface of the metal fibers of the tree-dimensional network of metal fibers. Further, the present invention concerns a Method of manufacturing a lithium metal electrode, wherein the method comprises the steps of a) providing a three-dimensional network of metal fibers, wherein the metal fibers are directly in contact to one another, wherein the metal fibers have a thickness and/or width in the range of 0.25 to 200 μm; and b) providing a layer of metallic lithium on the fibers of the three-dimensional network of metal fibers.

POUCH WITH THERMAL INSULATOR AND PHASE CHANGE MATERIAL

Resumen de: US2024421381A1

A system that includes a wettable thermal insulator, a phase change material, and a flexible pouch. In the event a thermal event occurs, the phase change material changes from a liquid state to a gaseous state. The flexible pouch is configured to envelope the wettable thermal insulator and the phase change material in the liquid state.

BATTERY MODULE AND BATTERY CASE

Resumen de: US2024421377A1

A battery module is provided. The battery module includes a front lid having a fluid inlet for flowing a fluid into the battery module and a battery case coupled to the front lid and having an accommodation region for accommodating battery cells. The battery case further includes a case frame, one or more inlet channels, and one or more outlet channels. Each of the one or more inlet channels receiving the fluid from the fluid inlet and going through the case frame for flowing the fluid through the battery case further includes one or more inlet slits for flowing the fluid into the accommodation region for cooling the battery cells. Each of the one or more outlet channels going through the case frame for flowing the fluid through the battery case is coupled to the accommodation region for flowing the fluid out of a fluid outlet of the battery module.

Insulation-Layer Forming Composition for Lithium Secondary Battery and Lithium Secondary Battery Comprising Same

Resumen de: US2024421374A1

An insulation-layer forming composition includes: a conjugated diene copolymer as a binder polymer; and a non-aqueous organic solvent as a dispersion solvent, the conjugate diene copolymer having a Tg of −10° C. to 40° C. According to one embodiment of the present disclosure, a physical short circuit between the cathode and the anode due to the defects, such as separator shrinkage and electrode folding in the lithium secondary battery, can be prevented. Moreover, cathode coating and insulating liquid coating can be simultaneously performed, by forming, on a tab portion of the cathode, an insulating layer satisfying all of flexibility, insulating characteristics, and electrolyte resistance characteristics. A cathode including the insulation-layer forming composition, a method of forming the cathode, and a lithium secondary battery including the cathode are also provided.

DIAGNOSE UND MINDERUNG VON BATTERIEUNGLEICHGEWICHTEN

Resumen de: DE102023129645A1

Es werden Techniken zur Diagnose und Minderung von Batterieungleichgewichten bereitgestellt. Bei einer Ausführungsform beinhalten die Techniken das Isolieren einer ersten Batteriezelle aus einer Vielzahl von Batteriezellen über eine erste Isoliereinheit, das Bestimmen eines State of Health der ersten Batteriezelle über eine Einheit zur Messung der komplexen Impedanz und das Steuern der ersten Batteriezelle über eine Steuerung auf Grundlage des State of Health der ersten Batteriezelle.

Kühlsystem zur Kühlung einer Hochvoltbatterie für den Einsatz in einem Kraftfahrzeug

Resumen de: DE102023115590A1

Die Erfindung betrifft ein Kühlsystem (2) zur Kühlung einer Hochvoltbatterie (4) für den Einsatz in einem Kraftfahrzeug (80), aufweisend einen ersten Kühlkreislauf (6) mit einem einphasigen Kühlmedium (6a) zur Direktkühlung eines Zellmoduls (4a) der Hochvoltbatterie (4) und einem Umgebungswärmetauscher (6b) zur Abgabe von Wärmeenergie des einphasigen Kühlmediums (6a) an die Umgebung, einen zweiten Kühlkreislauf (8) mit einem zweiphasigen Kühlmedium (8a), einem Umgebungswärmetauscher (8b) zur Abgabe von Wärmeenergie des zweiphasigen Kühlmediums (8a) an die Umgebung und einem weiteren Wärmetauscher (10) zur Aufnahme von Wärmeenergie des einphasigen Kühlmediums (6a), wobei das zweiphasige Kühlmedium (8a) fluorfrei ausgebildet ist und der zweite Kühlkreislauf (8) druckabgesenkt ausgebildet ist.

Kühlmittelkreis für ein Kraftfahrzeug mit einem Vier-Wege-Mischventil, Kraftfahrzeug und Verfahren zum Betreiben eines Kühlmittelkreises

Resumen de: DE102023115860A1

Die Erfindung betrifft einen Kühlmittelkreis (10) für ein Kraftfahrzeug, ein Kraftfahrzeug und ein Verfahren zum Betreiben des Kühlmittelkreises (10). Eine Kühleinrichtung (18) ist zum Kühlen einer Batterie des Kraftfahrzeugs vorgesehen, und eine Pumpeinrichtung (20) zum Fördern des Kühlmittels. In dem Kühlmittelkreis (10) sind eine elektrische Heizeinrichtung (22) und ein Chiller (24) angeordnet. Der Chiller (24) ist als Verdampfer eines Kältemittelkreises des Kraftfahrzeugs (12) betreibbar. Der Kühlmittelkreis (10) weist eine Ventileinrichtung (30) mit zwei Kühlmitteleinlässen (32, 34) und mit zwei Kühlmittelauslässen (36, 38) auf. Die Ventileinrichtung (30) ist in einem ersten Ventilzustand betreibbar, in welchem das mittels der Pumpeinrichtung (20) geförderte Kühlmittel an einem der Kühlmitteleinlässe (32, 34) in die Ventileinrichtung (30) eintritt und an einem der Kühlmittelauslässe (36, 38) aus der Ventileinrichtung (30) austritt. In dem ersten Ventilzustand ist das Kühlmittel mittels der Pumpeinrichtung (20) unter Umgehung der Heizeinrichtung (22) und des Chillers (24) durch die Kühleinrichtung (18) hindurch förderbar.

GASANALYSESYSTEME FÜR BATTERIEZELLEN

Resumen de: DE102023129626A1

Ein Batteriezellengasanalysesystem, das eine Entgasungskammer, eine Unterdruckpumpe in Fluidkommunikation mit der Entgasungskammer, um Luft aus der Entgasungskammer zu entfernen, einen Entlüftungsanschluss, der konfiguriert ist, die Entgasungskammer wahlweise zu entlüften, eine Batteriezelle, die von der Entgasungskammer umschlossen ist, und einen Gasdetektor in Fluidkommunikation mit der Entgasungskammer enthält. Der Gasdetektor ist konfiguriert, mit Gassortentrennung mindestens einen Parameter eines Gases, das aus der Batteriezelle in die Entgasungskammer freigegeben wird, zu detektieren, und der mindestens eine Parameter des Gases der Batteriezelle gibt eine Herstellungsqualität der Batteriezelle an. Das System enthält mindestens ein Ventil, das zwischen die Entgasungskammer und den Gasdetektor gekoppelt ist, um einen Strom des Gases der Batteriezelle zum Gasdetektor wahlweise zu steuern.

Eine elektrochemische Batteriezelle mit einer leitenden Schicht und Verfahren zum Herstellen desselben

Resumen de: DE102023128499A1

Ein Verfahren zum Herstellen einer Batteriezelle umfasst: Einbringen einer Elektrodenanordnung in einem Batteriegehäuse; Anordnen einer oberen Kappenanordnung an dem Batteriegehäuse, um eine Batteriezelle mit mindestens einem ersten Füllloch und einem zweiten Füllloch zu bilden; Einbringen eines ersten Teils einer flüssigen Lösung in der Batteriezelle über das erste Füllloch, wobei die flüssige Lösung ein organisches Lösungsmittel, ein vernetzbares Polymer und ein Vernetzungsmittel enthält; Umwandeln des ersten Teils der flüssigen Lösung in eine erste leitende Schicht, die zwischen der Elektrodenanordnung und dem Batteriegehäuse angeordnet ist; Einbringen eines zweiten Teils der flüssigen Lösung innerhalb der Batteriezelle über das zweite Füllloch; Umwandeln des zweiten Teils der flüssigen Lösung in eine zweite leitende Schicht, die zwischen der Elektrodenanordnung und dem Batteriegehäuse angeordnet ist; und Füllen der Batteriezelle mit einem flüssigen Elektrolyten über ein Elektrolytfüllloch.

Batteriemodulanordnung und Montageverfahren einer Platine eines Batteriemanagementssystems in einer Batteriemodulanordnung

Nº publicación: DE102023002392A1 19/12/2024

Solicitante:

DEUTZ AG [DE]
DEUTZ Aktiengesellschaft

Resumen de: DE102023002392A1

Batteriemodulanordnung umfassend: ein erstes Batteriemodul (8) und ein zweites Batteriemodul (9), die jeweils ein oder mehrere Batteriezellen umfassen, eine Platine (11) einer Batterieüberwachungseinheit; und ein Halteelement (16), das eine Aufnahme aufweist, in der die Platine (11) angeordnet ist, dadurch gekennzeichnet, dass das Halteelement (16) zwischen dem ersten Batteriemodul (8) und dem zweiten Batteriemodul (9) angeordnet ist.