MULTI-AXIS LOAD CELL BODY

Organization Name

ILLINOIS TOOL WORKS INC.

Inventor(s)

Richard A. Meyer of Chaska MN (US)

Nicholas E. Meyer of Victoria MN (US)

MULTI-AXIS LOAD CELL BODY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18625762 titled 'MULTI-AXIS LOAD CELL BODY

Simplified Explanation:

This patent application describes a load cell body that can transmit forces and moments in multiple directions. It consists of a central hub, an annular ring, and radial members connecting the two.

• The load cell body has a central hub and an annular ring that are rigid and concentric.
• Radial members extend from the central hub to the annular ring, allowing for the transmission of forces and moments in different directions.
• Each radial member includes a center body with an aperture that runs parallel to the central axis.
• Flexures join the center body to both the central hub and the annular ring, providing flexibility for accurate force and moment measurements.

Key Features and Innovation:

• Central hub and annular ring design for transmitting forces and moments.
• Radial members for multi-directional force transmission.
• Flexures for flexibility and accurate measurements.

Potential Applications:

This technology can be used in various industries such as automotive, aerospace, robotics, and manufacturing for precise force and moment measurements.

Problems Solved:

The load cell body solves the problem of accurately measuring forces and moments in multiple directions with a single device.

Benefits:

• Accurate force and moment measurements in plural directions.
• Versatile application in different industries.
• Improved efficiency and precision in force sensing.

Commercial Applications:

Potential commercial applications include load testing equipment, robotic force sensors, industrial automation systems, and structural health monitoring devices.

Questions about Load Cell Body:

1. How does the load cell body improve force and moment measurements compared to traditional methods? 2. What industries can benefit the most from using this innovative load cell body technology?

Frequently Updated Research:

Stay updated on the latest advancements in load cell technology and force sensing applications to maximize the potential of this innovative load cell body design.

Original Abstract Submitted

A load cell body for transmitting forces and moments in plural directions includes a rigid central hub having a central axis and a rigid annular ring concentric with the central hub about the central axis. At least three radial members extend radially with respect to the central axis along corresponding longitudinal axes from the central hub to the annular ring where each radial member includes a center body with an aperture extending there through along an aperture axis that is parallel to the central axis. A first flexure joins the center body to the central hub, while a second flexure joins the center body to the annular ring.