TEST FIXTURE WITH TUNABLE STROKE AND RESISTANCE TO VEHICLE SEAT MOVEMENT DURING TESTING

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Kyle E. Rosander of Saline MI (US)

Phouvadol P. Khouphongsy of Saline MI (US)

Tejaswi Mule of Westland MI (US)

Robert J. Stauffer of South Lyon MI (US)

Zachary T. Pawson of Deerfield MI (US)

Louis J. Brady of Romulus MI (US)

TEST FIXTURE WITH TUNABLE STROKE AND RESISTANCE TO VEHICLE SEAT MOVEMENT DURING TESTING - A simplified explanation of the abstract

This abstract first appeared for US patent application 17947431 titled 'TEST FIXTURE WITH TUNABLE STROKE AND RESISTANCE TO VEHICLE SEAT MOVEMENT DURING TESTING

Simplified Explanation

The abstract describes a test fixture for testing a vehicle seat mounting, which includes a first portion and a second portion with a fulcrum supported on it. An energy absorbing member is attached to the first portion and extends around a portion of the fulcrum. The energy absorbing member changes shape when the first and second portions move apart, causing the fulcrum to slide along it and deform the member.

• Test fixture for vehicle seat mounting testing:

 * Consists of first and second portions with a fulcrum.
 * Energy absorbing member attached to first portion.
 * Member changes shape when portions move apart, causing fulcrum to slide and deform member.

Potential Applications

The technology could be applied in: - Automotive industry for testing vehicle seat safety. - Research and development for improving seat mounting designs.

Problems Solved

The technology helps in: - Ensuring the safety and durability of vehicle seats. - Providing a reliable method for testing seat mounting under different conditions.

Benefits

The benefits of this technology include: - Enhanced safety standards for vehicle occupants. - Improved testing accuracy for seat mounting systems.

Potential Commercial Applications

A potential commercial application could be: - Selling the test fixture to automotive manufacturers for seat testing.

Possible Prior Art

One possible prior art could be: - Existing test fixtures for vehicle seat mounting testing.

Unanswered Questions

How does this technology compare to traditional seat mounting testing methods?

This technology offers a more controlled and precise way of testing seat mounting compared to traditional methods, ensuring accurate results and improved safety standards.

What materials are used in the energy absorbing member?

The materials used in the energy absorbing member are not specified in the abstract, but they would need to be durable and pliable to withstand deformation during testing.

Original Abstract Submitted

A test fixture for a testing a vehicle seat mounting includes a first portion and a second portion separate from the first portion and having a fulcrum supported thereon. An energy absorbing member is attached to the test fixture first portion and extends around a portion of the fulcrum. The energy absorbing member is formed so as to have a first shape when the test fixture first portion and second portion are spaced apart less than a predetermined distance. The test fixture is structured so that movement of the second portion in a direction away from the first portion causes the fulcrum to slide along the energy absorbing member. Sliding of the fulcrum along the energy absorbing member plastically deforms the energy absorbing member into a second shape different from the first shape.