BATTERY PACK AND VEHICLE

Organization Name

YAMAHA HATSUDOKI KABUSHIKI KAISHA

Inventor(s)

Tokinari Nagao of Shizuoka (JP)

BATTERY PACK AND VEHICLE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18622630 titled 'BATTERY PACK AND VEHICLE

The abstract describes a battery pack with a casing that houses a battery module and a first wall portion. The casing has a wall with an inner surface forming a gas passageway between the battery module and the first surface, with an outlet for discharging gas outside the casing. The first wall portion extends from the first surface and towards the upstream side of the gas passageway.

• The battery pack includes a casing with a first wall portion that allows for the discharge of gas from inside the casing to the outside.
• The first wall portion extends from the inner surface of the casing and helps create a gas passageway for the discharge of gas.
• The design of the casing and the first wall portion ensures efficient gas discharge from the battery pack.
• This innovation improves the safety and performance of the battery pack by effectively managing gas buildup inside the casing.
• The battery pack's design reduces the risk of gas-related issues and enhances the overall reliability of the battery module.

Potential Applications: - Electric vehicles - Portable electronic devices - Energy storage systems

Problems Solved: - Efficient gas discharge from battery packs - Improved safety and reliability of battery modules

Benefits: - Enhanced safety of battery packs - Increased performance and reliability - Reduced risk of gas-related issues

Commercial Applications: Title: Gas Discharge Battery Pack Technology for Enhanced Safety and Performance This technology can be utilized in electric vehicles, portable electronic devices, and energy storage systems to improve safety and reliability while enhancing overall performance.

Questions about Gas Discharge Battery Pack Technology: 1. How does the first wall portion of the casing contribute to the efficient discharge of gas from the battery pack? The first wall portion extends from the inner surface of the casing to create a gas passageway for the discharge of gas, ensuring effective gas management.

2. What are the potential applications of this technology beyond battery packs? This technology can also be applied in various industries such as aerospace, marine, and renewable energy for efficient gas management in different systems.

Original Abstract Submitted

A battery pack, including a battery module, a casing that houses the battery module, and a first wall portion. The casing has: a wall of which an inner surface is a first surface, the battery module being arranged with an interval from the first surface so as to form a first gas passageway between the battery module and the first surface; and an outlet formed in the wall, gas inside the casing being dischargeable, sequentially through the first gas passageway and the outlet, to an outside of the casing. The first wall portion extends from the first surface of the casing, and is shaped so as to extend away from the first surface while extending toward an upstream side of the first gas passageway.