An energy storage apparatus (1) includes an energy storage device (20), a plate-shaped first member (harness plate (50)) arranged above the energy storage device (20), and a second member (bus bar frame (30)) arranged below the first member. A first one of the first member and the second member has a first convex part (first convex part (32)) projecting toward a second one, and the second one of the first member and the second member has a first concave part or a through hole (through hole (53)) into which the first convex part is inserted, and a second convex part (second convex part (51)) projecting along periphery of the first convex part so as to surround the periphery of the first convex part.

A power storage pack includes a plurality of power storage modules each having a plurality of power storage devices arranged in first direction X and binding members that bind the plurality of power storage devices, and heat transfer members that transfer heat between the plurality of power storage modules. The plurality of power storage modules includes at least a first power storage module and a second power storage module. Each heat transfer member has first connecting parts thermally connected to a surface of the first power storage module, the surface being parallel with first direction X, second connecting parts thermally connected to a surface of the second power storage module, the surface being parallel with first direction X, and coupling parts thermally coupling the first connecting parts to the second connecting parts. The first connecting parts and the second connecting parts are arranged in such a way as to be shifted from each other in first direction X.

An energy storage device according to one aspect of the present invention includes: an electrode assembly including a positive electrode, a negative electrode, and a separator; a nonaqueous electrolyte; and a case for housing the electrode assembly and the nonaqueous electrolyte, in which the positive electrode contains a positive active material, the positive active material contains a plurality of particles satisfying at least one of conditions (1) and (2) below, and the electrode assembly is in a pressed state. (1) A plurality of primary particles that do not form secondary particles (2) A plurality of secondary particles formed by aggregation of a plurality of primary particles, having a ratio of an average diameter of the secondary particles to an average diameter of the primary particles that form the secondary particles of less than 11

Embodiments of present disclosure relate to a capacitor assembly and a dry-type capacitor. The capacitor assembly includes: a first layer of capacitor elements; a second layer of capacitor elements, wherein the first layer of capacitor elements is stacked on the second layer of capacitor elements; a first busbar comprising a first conductive plate provided with a plurality of holes, wherein the first conductive plate is electrically coupled to the capacitor elements of the first layer via a plurality of connecting elements arranged at the respective holes of the first conductive plate; and a second busbar electrically coupled to the first busbar and including a second conductive plate provided with a plurality of holes, wherein the second conductive plate is electrically coupled to the capacitor elements of the second layer via a plurality of connecting elements arranged at the respective holes of the second conductive plate.

This invention provides a box for accommodating capacitor including bottom plate, two first side plates, two second side plates, fixed engagement structure and movable engagement structure. First side plates are disposed opposite to each other. Second side plates are disposed opposite to each other. Side plates are respectively connected to a plurality of side edges of bottom plate so that bottom plate and side plates together form accommodation space. Fixed engagement structure and the movable engagement structure are respectively connected to first side plates. Fixed engagement structure and movable engagement structure are located at a side of accommodation space that is located farthest from bottom plate. Movable engagement structure includes cantilever part and engagement part. Cantilever part is connected to one of first side plates. Engagement part protrudes from movable end part of cantilever part.

The present application discloses a battery module and an apparatus, which relates to the field of battery technology and is used for optimizing the structure of the battery module. The battery module includes a battery, a connecting piece, a wire harness board and a temperature collecting component. The battery includes an electrode terminal and a top cover. The connecting piece is fixed with the electrode terminal; the wire harness plate is arranged on the top outside of the top cover, and is provided with an installation part and an elastic pressing part. The temperature collecting component is installed in the installation part and is located between the wire harness plate and the top cover. Among them, the elastic pressing part abuts against the connecting piece, and the temperature collecting component abuts against the top cover.

An electrical storage module includes: an electrical storage device; a case in which an electrical storage device is housed; and a lid configured to cover an opening part of the case. The case includes a groove part at an outer periphery of the opening part, and the lid includes a rib configured to be inserted into the groove part. A sealing member is present between the rib and the groove part. The sealing member, in a state of having viscosity, is accommodated in the groove part, and then is cured, and the viscosity becomes low. The sealing member is an adhesive.

Hybrid lithium-ion electrochemical cells include a first electrode having a first polarity and a first electroactive material that reversibly cycles lithium ions having a first maximum operational voltage and a second electrode having the first polarity with a second electroactive material having a second maximum operational voltage. A difference between the second and first maximum operational voltages defines a predetermined voltage difference. Also included are at least one third electrode including a third electroactive material that reversibly cycles lithium ions having a second polarity opposite to the first polarity, a separator, and electrolyte. A voltage modification component (e.g., diode) is in electrical communication with the first and the second electrodes. In a first operational state corresponding to charging, the at least one voltage modification component is configured to induce a voltage drop corresponding to the predetermined voltage difference providing high power density and high energy density hybrid lithium-ion electrochemical cells.

An electricity storage module includes: an electricity storage device; a case that houses the electricity storage device and includes a bottom surface part and the opening part located at a side opposite to the bottom surface part; a lid that covers an opening part; and a sealing member that seals between the case and the lid. The case has a first case surface that surrounds the opening part along an outer periphery of the opening part. The lid has a first lid surface facing the first case surface. The sealing member is disposed between the first case surface and the first lid surface.

An energy storage apparatus includes an energy storage device, a spacer disposed adjacent to the energy storage device, and an outer case which accommodates the energy storage device and the spacer. The spacer includes a projecting portion which projects from a bottom surface of the energy storage device. An inner surface of the outer case which faces a bottom surface of the energy storage device is provided with an accommodating portion which accommodates the projecting portion, and a placement surface portion which is disposed adjacent to the accommodating portion in an arrangement direction of the spacer and the energy storage device and on which the bottom surface of the energy storage device is placed.