A battery enclosure includes a tub defining an internal volume, a lid, a cross member within the internal volume, and a mounting bracket. The tub has a bottom and a wall integrally formed with the bottom. The lid is configured to couple to the wall to enclose the internal volume. The cross member is coupled to the tub. The mounting bracket is attached to the bottom of the tub and is configured to releasbly secure a battery.

A battery enclosure includes a tub defining an internal volume, a lid, a cross member within the internal volume, and a mounting bracket. The tub has a bottom and a wall integrally formed with the bottom. The lid is configured to couple to the wall to enclose the internal volume. The cross member is coupled to the tub. The mounting bracket is attached to the bottom of the tub and is configured to releasbly secure a battery.

The present disclosure relates to a casing for a battery pack and a battery pack. The casing has a receiving space and an opening in communication with the receiving space, the receiving space is formed by a wall portion of the casing, and the wall portion is formed from two or more stacked base plates, between which a plurality of cavities are formed. By forming a plurality of cavities in the wall portion, the casing for a battery pack provided by the present disclosure not only can improve the bearing capacity and the impact resistance of the casing, but also can achieve a thermal management of the battery assembly by filling the plurality of cavities with a phase change material or cooling liquid, which can further improve the mechanical property of the casing with a relatively light weight and relatively high reliability.

The present disclosure relates to an electricity storage module and battery. It further relates to a corresponding manufacturing process for such a storage module and battery. The module comprises a plurality of electricity storage pouch cells each having a pouch and first and second electrodes protruding from the pouch, the pouch cells being juxtaposed along a principal direction and forming a stack embedded in a resin.

A flexible battery case with an insert mating to the tongue and groove joint to provide a stable platform for the controls, displays and peripheral connectors. Other connectors are disposed within a plastic housing and overmolded to create a waterproof seal. A charger is configured to execute a software program to confirm charger authorization to enable secondary battery charging and discharging. The control system is configured to monitor the integrity of a heating element and executes a software program to disable charging if the integrity of a heating element is compromised. A flexible substrate has a PCB on one side, and supports the individual battery cells and surface mount circuit boards on an opposite side. The flexible PCB substrate may be folded to sandwich an insulating layer therebetween.

A flexible battery case with an insert mating to the tongue and groove joint to provide a stable platform for the controls, displays and peripheral connectors. Other connectors are disposed within a plastic housing and overmolded to create a waterproof seal. A charger is configured to execute a software program to confirm charger authorization to enable secondary battery charging and discharging. The control system is configured to monitor the integrity of a heating element and executes a software program to disable charging if the integrity of a heating element is compromised. A flexible substrate has a PCB on one side, and supports the individual battery cells and surface mount circuit boards on an opposite side. The flexible PCB substrate may be folded to sandwich an insulating layer therebetween.

A vehicle battery case includes: a housing in which a battery is mounted and which has a side surface part formed to cover the side surface of the battery; a side upper panel coupled to the side surface part of the housing and extending in a longitudinal direction along the side surface part; a side lower panel coupled to the side surface part of the housing while being spaced downward apart from the side upper panel and extending in the longitudinal direction along the side surface part of the housing, an end of the side lower panel being coupled to an end of the side upper panel so as to form an impact absorption space between the side lower panel and the side upper panel; and a reinforcement panel inserted into the impact absorption space and extending in the longitudinal direction along the side surface part of the housing.

An energy storage apparatus includes an outer case that accommodates an energy storage device and a reinforcing member. The reinforcing member includes the pair of reinforcing walls disposed so as to sandwich the two wall portions of the outer case from an outside of the outer case, the two wall portions opposedly facing each other, and the connecting portion connecting the pair of reinforcing walls to each other.

A battery charging and discharging device includes an enclosure defining an interior compartment, where the enclosure further includes an access opening configured to allow access to the interior compartment, a moveable cover configured to move between a closed position covering the access opening and to prevent access to the interior compartment, and an open position enabling access to the interior compartment, a battery storage compartment disposed within the interior compartment and configured to receive, retain and release a plurality of rechargeable batteries, and a releasable attachment device configured to releasably attach the enclosure to one of a movable object or a stationary fixture.

A battery charging and discharging device includes an enclosure defining an interior compartment, where the enclosure further includes an access opening configured to allow access to the interior compartment, a moveable cover configured to move between a closed position covering the access opening and to prevent access to the interior compartment, and an open position enabling access to the interior compartment, a battery storage compartment disposed within the interior compartment and configured to receive, retain and release a plurality of rechargeable batteries, and a releasable attachment device configured to releasably attach the enclosure to one of a movable object or a stationary fixture.