In the world of robotics, both the industry and application environment determine the specific tool used at the end of a robot arm. This tool varies in definition from an EOAT (end-of-arm-tooling) to a manipulator or gripper. As automation applications become more complex and robots continue to be utilized for efficiency, the need for more versatile, dexterous grippers has emerged. Traditional grippers have features or classification criteria that are commonly given to them.
Classification Criteria of Traditional Grippers
Next Generation of Grippers
A new generation of grippers have entered the market. These dexterous grippers are a unique convergence between grippers and hands. They typically have articulated fingers that can adapt to the shape of different objects. One example of such a gripper is the Robotiq Adaptive Gripper.
These dexterous grippers will not replace all conventional grippers, they find their strongest use in applications where several traditional grippers would have to be used in conjunction with a tool changer to be able to properly grasp many different parts. The ability to use one tool for several applications (parts handling, parts transfer and sorting, picking and placing, kitting, etc.), or in the same work cell for a range of parts, greatly reduces tool changing time and setup costs.