SYSTEMS AND METHODS FOR ATTACHING PERIPHERAL COMPONENTS TO TRACTION BATTERY PACKS

Organization Name

Ford Global Technologies, LLC

Inventor(s)

Parikshit Gupte of West Bloomfield MI (US)

Alexander Robert Rink of Royal Oak MI (US)

Nathaniel Conti of Canton MI (US)

Benjamin Stumpf of Livonia MI (US)

SYSTEMS AND METHODS FOR ATTACHING PERIPHERAL COMPONENTS TO TRACTION BATTERY PACKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17936886 titled 'SYSTEMS AND METHODS FOR ATTACHING PERIPHERAL COMPONENTS TO TRACTION BATTERY PACKS

Simplified Explanation

The patent application describes traction battery pack designs for electrified vehicles, including an outer enclosure assembly with a battery array housed inside and a peripheral component assembly secured within a wall of the enclosure using twist lock features.

• The traction battery pack includes an outer enclosure assembly establishing an interior space.
• A battery array is housed within the interior of the outer enclosure assembly.
• A peripheral component assembly is secured within a wall of the outer enclosure assembly.
• The wall may be part of a tray or cover of the outer enclosure assembly.
• The peripheral component assembly includes twist lock features for rotatably securing it in place within a mounting opening of the wall.
• The peripheral component assembly can be installed from inside the outer enclosure assembly using the twist lock features.

Potential Applications

The technology can be applied in electric vehicles, hybrid vehicles, and other electrified transportation systems.

Problems Solved

The design simplifies the installation and maintenance of peripheral components within the traction battery pack, improving efficiency and reliability.

Benefits

- Enhanced security and stability of peripheral components - Ease of installation and maintenance - Space optimization within the battery pack

Potential Commercial Applications

- Automotive industry for electric and hybrid vehicles - Transportation sector for electrified buses and trucks

Possible Prior Art

There may be existing patents or designs related to securing peripheral components within battery packs, but specific prior art is not provided in this application.

Unanswered Questions

How does this design impact the overall weight of the traction battery pack?

The abstract does not mention any details about the weight implications of this design. Further information would be needed to assess the impact on the weight of the battery pack.

Are there any specific safety features incorporated into the twist lock mechanism for securing the peripheral component assembly?

The abstract does not address any safety features related to the twist lock mechanism. Additional details would be necessary to understand the safety aspects of this design.

Original Abstract Submitted

Traction battery pack designs are disclosed for use in electrified vehicles. Exemplary traction battery packs may include an outer enclosure assembly establishing an interior, and a battery array housed within the interior. A peripheral component assembly may be secured within a wall of the outer enclosure assembly. The wall may be part of a tray or a cover of the outer enclosure assembly. The peripheral component assembly may include twist lock features for rotatably securing the peripheral component assembly in place within a mounting opening of the wall. Using the twist lock features, the peripheral component assembly may be installed from inside the outer enclosure assembly.