HIGH TEMPERATURE END EFFECTORS FOR ROBOTS

Organization Name

Virginia Commonwealth University

Inventor(s)

Logan Schorr of Henrico VA (US)

Ravi Hadimani of Glen Allen MD (US)

Bradley Johnson of Richmond VA (US)

HIGH TEMPERATURE END EFFECTORS FOR ROBOTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240351222 titled 'HIGH TEMPERATURE END EFFECTORS FOR ROBOTS

Simplified Explanation: The abstract describes a robotic gripper designed to withstand high temperatures, such as those found in metal additive manufacturing processes. The gripper includes ceramic insulators and steel finger backings, allowing it to be temperature resistant up to 1000°C.

Key Features and Innovation:

• Robotic gripper capable of withstanding high temperatures
• Fingers include casted ceramic insulators with steel backing
• Industrial thermocouples for active temperature monitoring
• Adaptive design suitable for collaborative robots
• Temperature resistant up to 1000°C without liquid cooling

Potential Applications: The technology can be used in metal additive manufacturing, high-temperature industrial processes, and other applications requiring a gripper that can withstand extreme heat.

Problems Solved: The gripper addresses the challenge of handling materials at high temperatures without the need for costly cooling systems, improving efficiency and safety in industrial settings.

Benefits:

• Enhanced safety in high-temperature environments
• Improved efficiency in metal additive manufacturing processes
• Cost-effective solution compared to liquid cooling systems

Commercial Applications: Potential commercial applications include use in metal fabrication facilities, automotive manufacturing plants, and other industries where high-temperature handling is required.

Questions about Robotic Gripper Technology: 1. How does the ceramic insulator contribute to the gripper's temperature resistance? 2. What are the advantages of using industrial thermocouples for temperature monitoring in the gripper?

Frequently Updated Research: Stay updated on advancements in robotic gripper technology for high-temperature applications to ensure optimal performance and safety in industrial settings.

Original Abstract Submitted

a robotic gripper is capable of withstanding the high temperatures of processes such as metal additive manufacturing. one or more of the fingers of the gripper include a casted ceramic insulator with a steel finger backing. industrial thermocouples may attach to a finger for active temperature monitoring. an exemplary robotic gripper is adaptive, usable on a collaborative robot, and temperature resistant to over 1000� c. without introducing costly augmentations such as liquid cooling.