VEHICLE BATTERY ENCLOSURE

Organization Name

ford global technologies, llc

Inventor(s)

Mohammad Omar Faruque of Ann Arbor MI (US)

Dean M. Jaradi of Macomb MI (US)

S.M. Iskander Farooq of Novi MI (US)

Saeed D. Barbat of Novi MI (US)

VEHICLE BATTERY ENCLOSURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240313322 titled 'VEHICLE BATTERY ENCLOSURE

Simplified Explanation:

The patent application describes a vehicle battery enclosure with a rotatable wing that can be deployed to align with the enclosure along an axis. A pyrotechnic actuator is used to rotate the wing into the deployed position.

• Key Features and Innovation:

   * Vehicle battery enclosure with a rotatable wing
   * Wing can be deployed to align with the enclosure along an axis
   * Pyrotechnic actuator used to rotate the wing

Potential Applications: The technology could be used in electric vehicles, drones, or other battery-powered devices where a deployable wing could provide additional functionality or safety features.

Problems Solved: The technology solves the problem of efficiently deploying a wing on a vehicle battery enclosure without the need for complex mechanisms.

Benefits: The benefits of this technology include improved aerodynamics, increased safety, and potentially enhanced performance of the vehicle or device.

Commercial Applications: The technology could be commercialized for use in electric vehicles, drones, or other battery-powered devices to enhance their functionality and safety features, potentially appealing to manufacturers looking to differentiate their products in the market.

Prior Art: Readers interested in prior art related to this technology could explore patents or research related to deployable wings on vehicle enclosures or battery-powered devices.

Frequently Updated Research: Researchers may be conducting studies on the aerodynamic effects of deployable wings on electric vehicles or drones, as well as the impact of such technology on overall performance and efficiency.

Questions about Vehicle Battery Enclosure with Rotatable Wing: 1. How does the deployment of the wing impact the aerodynamics of the vehicle or device?

   - The deployment of the wing can potentially improve aerodynamics by reducing drag and increasing stability.

2. What materials are typically used in the construction of vehicle battery enclosures with rotatable wings?

   - Materials such as lightweight metals or composites are commonly used to ensure durability and efficiency in such applications.

Original Abstract Submitted

a vehicle battery enclosure includes a first member elongated along an axis and a second member spaced from the first member. the vehicle battery enclosure includes a battery compartment between the first member and the second member. a wing is rotatably connected to the first member and is rotatable relative to the first member from a stowed position (figs. a, b) to a deployed position (figs. a, , and ). the wing is aligned with the battery enclosure along the axis in the deployed position. a pyrotechnic actuator is operatively coupled to the wing to rotate the wing to the deployed position.