18475208. Battery Module simplified abstract (Prime Planet Energy & Solutions, Inc.)
Battery Module
Organization Name
Prime Planet Energy & Solutions, Inc.
Inventor(s)
Satoshi Kugino of Kasai-shi (JP)
Tomochika Teranaka of Osaka (JP)
Battery Module - A simplified explanation of the abstract
This abstract first appeared for US patent application 18475208 titled 'Battery Module
Simplified Explanation:
The patent application describes a terminal member connected to a battery cell with a fuse portion and an arc interruption portion to control arcs generated during disconnection.
- The terminal member is electrically connected to multiple battery cells.
- It includes a fuse portion for safety.
- An arc interruption portion is present in the discharging space to manage arcs during disconnection.
- The arc interruption portion extends orthogonally to the fuse portion and discharging space.
Key Features and Innovation:
- Safety features with a fuse portion.
- Arc interruption portion for managing arcs during disconnection.
- Orthogonal extension of the arc interruption portion for effective control.
Potential Applications:
This technology can be applied in various battery systems, electric vehicles, energy storage systems, and industrial equipment.
Problems Solved:
This technology addresses safety concerns related to arcs generated during disconnection in battery systems.
Benefits:
- Enhanced safety in battery systems.
- Efficient management of arcs during disconnection.
- Improved reliability of electrical connections.
Commercial Applications:
Potential commercial applications include battery manufacturing, electric vehicle production, energy storage solutions, and industrial equipment development.
Questions about the Technology:
1. How does the arc interruption portion improve safety in battery systems? 2. What are the potential market implications of this technology in the electric vehicle industry?
Frequently Updated Research:
Stay updated on advancements in battery safety technologies, arc interruption mechanisms, and innovations in electrical connection systems.
Original Abstract Submitted
A terminal member is electrically connected to at least one battery cell of a plurality of battery cells, and includes a fuse portion. An arc interruption portion is located in a discharging space in which an arc generated at a time of melting and disconnection of the fuse portion extends, and is provided to extend in a direction substantially orthogonal to a direction in which the fuse portion and the discharging space are arranged side by side.