18402467. BATTERY PACK HAVING STRUCTURE CAPABLE OF SWELLING CONTROL AND VEHICLE INCLUDING THE BATTERY PACK simplified abstract (LG Energy Solution, Ltd.)
Contents
BATTERY PACK HAVING STRUCTURE CAPABLE OF SWELLING CONTROL AND VEHICLE INCLUDING THE BATTERY PACK
Organization Name
Inventor(s)
BATTERY PACK HAVING STRUCTURE CAPABLE OF SWELLING CONTROL AND VEHICLE INCLUDING THE BATTERY PACK - A simplified explanation of the abstract
This abstract first appeared for US patent application 18402467 titled 'BATTERY PACK HAVING STRUCTURE CAPABLE OF SWELLING CONTROL AND VEHICLE INCLUDING THE BATTERY PACK
The patent application describes a battery pack comprising multiple battery cell stacks arranged in rows within a pack tray, with partition walls separating adjacent battery cell stacks and a pack cover for protection.
- The battery pack includes multiple battery cell stacks stacked in a first direction.
- A pack tray accommodates the battery cell stacks in rows extending perpendicular to the first direction.
- The pack tray features a base, sidewalls, first beams to separate rows into groups, and partition walls within groups.
- A pack cover is included to cover the opening portion of the pack tray.
- Elastic members are also part of the battery pack design.
Potential Applications: - Electric vehicles - Energy storage systems - Portable electronic devices
Problems Solved: - Efficient organization of battery cell stacks - Protection and safety of battery cells - Space optimization within the battery pack
Benefits: - Enhanced battery pack structure - Improved safety features - Increased energy storage capacity
Commercial Applications: Title: "Innovative Battery Pack Design for Electric Vehicles and Energy Storage Systems" This technology can be utilized in electric vehicles, energy storage systems for renewable energy sources, and portable electronic devices, offering improved efficiency and safety features in battery packs.
Prior Art: No prior art information provided in the abstract.
Frequently Updated Research: No information on frequently updated research relevant to this technology provided in the abstract.
Questions about Battery Pack Design: 1. How does the partition wall design contribute to the safety and efficiency of the battery pack? 2. What are the potential cost implications of implementing this innovative battery pack design in commercial applications?
Original Abstract Submitted
A battery pack includes a plurality of battery cell stacks, each battery cell stack having a plurality of battery cells stacked in a first direction; a pack tray in which the plurality of battery cell stacks are accommodated in a plurality of rows extending in a second direction perpendicular to the first direction, each row having multiple battery cell stacks arranged in the second direction, the pack tray including: a base, a plurality of sidewalls extending from the base, a plurality of first beams extending in the second direction to separate the plurality of rows into groups, and a plurality of partition walls extending in the second direction, each partition wall being located within a corresponding group to separate adjacent battery cells stacks from each other; a pack cover covering an opening portion of the pack tray opposite the base; and a plurality of elastic members.
