In an elecric gripper, or servo-gripper, electric motors control the movement of the jaws using electric input from the robot controller. These robot end-of-arm tools are appearing more and more in industrial markets. Below are the top 5 advantages of using electric grippers over other types of robotic grippers.
Using encoded motors and the proper control scheme, the position of the jaw can be defined with an electric gripper. On the contrary, with conventional grippers, you typically have to go full stroke all the time. With electric grippers, you have flexibility to only use the minimum necessary clearance to approach a part, then do a minimum stroke to pick it up. Partial opening and closing helps pick a wider range of part sizes without compromising the cycle time.
Using encoders, it is posible to determine if a part has been picked up by the gripper. Some electric grippers will relay this information back to the robot controller. For many applications, detecting the grip is mandatory for error-proofing. Doing it at the gripper level avoids putting other sensors in the loop, simplifies integration and can reduce overall cost.
As the electric motor current is directly proportional to the torque it applies, it is possible to control the grip force applied by the gripper. The same is true for the closing speed. This can be of great help when handling fragile parts for example.
Many companies are making a move from pneumatic to electric to reduce operating costs. One important aspect of this shift is the cost reduction of the pneumatic hardware and the cost of energy.
Some applications require a clean environment whereby air leakage could cause contamination. In these cases, electric grippers are the only viable solution to pick up parts.