POWER STORAGE DEVICE

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Nobuyasu Nishiki of Toyokawa-shi (JP)

Naofumi Nomura of Nagakute-shi (JP)

Masaki Shimada of Kariya-shi (JP)

Kazuaki Okudaira of Miyoshi-shi (JP)

Sakuya Uchiyama of Toyota-shi (JP)

POWER STORAGE DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18466971 titled 'POWER STORAGE DEVICE

The power storage device described in the abstract includes multiple power storage modules, a housing case, a plate, a shielding plate, and a heat conduction member. The power storage modules are arranged side by side in a horizontal direction within the housing case. The plate is positioned above the power storage modules, while the shielding plate is fixed to the plate and placed between the power storage modules. The heat conduction member, with higher thermal conductivity than the shielding plate, is located between the shielding plate and the lower case of the housing.

• Power storage device with multiple modules
• Horizontal arrangement of power storage modules
• Plate positioned above the modules
• Shielding plate between modules
• Heat conduction member with high thermal conductivity

Potential Applications: - Energy storage systems - Renewable energy integration - Electric vehicles - Uninterruptible power supplies - Grid stabilization technologies

Problems Solved: - Efficient heat dissipation in power storage devices - Enhanced thermal management - Improved overall performance and longevity of the device

Benefits: - Increased energy storage capacity - Better heat dissipation capabilities - Enhanced reliability and durability - Optimal performance in various applications

Commercial Applications: Title: "Advanced Power Storage Solutions for Various Industries" This technology can be utilized in industries such as renewable energy, automotive, telecommunications, and data centers. It offers improved energy storage capabilities and efficient thermal management, making it ideal for applications requiring reliable power storage solutions.

Questions about Power Storage Device: 1. How does the heat conduction member contribute to the overall efficiency of the power storage device? The heat conduction member helps in dissipating heat effectively, ensuring optimal performance and longevity of the device.

2. What are the key advantages of using a shielding plate in a power storage device? The shielding plate helps in preventing interference between the power storage modules and enhances the overall safety and performance of the device.

Original Abstract Submitted

A power storage device based on the present disclosure includes a plurality of power storage modules, a housing case, a plate, a shielding plate, and a heat conduction member. The power storage modules are disposed side by side along a first direction orthogonal to a vertical direction. The housing case includes an upper case and a lower case, and houses the power storage modules. The plate is disposed above the power storage modules in the housing case. The shielding plate is fixed to the plate and disposed between the power storage modules. The heat conduction member is disposed between the shielding plate and the lower case, and has a higher thermal conductivity than the shielding plate.