Robotic Automation Educational Programming Robot Arm 6 Axis End Of Arm Tooling EOAT

Grippers are a very common type of EOAT. They are used for grasping objects and are especially suitable for assembly and pick and place applications.

 Mechanical grippers

Mechanical grippers are grippers that use mechanical fingers to manipulate objects. Mechanical grippers have a distinctive design that is reminiscent of a crab’s pincers. Mechanical grippers usually come with adjustable force and stroke features, enabling them to perform tasks with human-like precision and dexterity. The number of robot fingers vary depending on the model; however, most mechanical grippers have two to four fingers. The fingers are per default replaceable, allowing you to make the most of your investment.

 Vacuum grippers

Vacuum grippers provide gripping through suction cups and are mostly used for handling workpieces with uneven surfaces or irregular shapes. Traditional vacuum grippers utilize external air supply systems which require high maintenance costs. Newer models run on electricity instead, eliminating the heavy costs in addition to improving the work environment due to producing less noise and dust. The VG10 vacuum gripper falls into the latter category.

 Adhesive grippers

These types of grippers grasp objects by sticking to them instead of holding them. Adhesive grippers are typically used to pick up light-weight objects, such as fabrics. However, the reliability of an adhesive gripper will diminish with each successful operation due the adhesive substance losing its quality. The Gecko gripper is also a type of adhesive gripper, but instead of relying on adhesive substances to achieve gripping power it utilizes the same forces that allow gecko lizards to climb surfaces effortlessly. This just shows how far robot technology has come since the first industrial robot started working in a General Motors assembly line in 1961.

Sensors

Sensors extend your automation possibilities as they provide your robot with a sense of touch. By attaching a sensor to your cobot, you grant it the ability to work with fragile objects and perform delicate operations that would otherwise need the finesse of a human hand.

The purpose of this end effector type is to protect human workers as well as the robot itself from being damaged wh

en the robot hits an obstruction during operation. In such cases, the collision sensor either shuts down the cobot arm or it resets it to its original position to minimize further damage.

Force / torque sensors provide accurate force and torque measurements, giving you full control of your robot’s movements and freedom to automate even the most complex processes. Some force / torque sensors also come with integrated collision control, eliminating the need for a separate collision sensor.

Tools

When it comes to tools as end effectors, the sky is the limit. However, in manufacturing companies, certain tools are more prevalent than others, e.g., shears, drills, welding torches, paint guns, deburring tools etc. Some choose to combine their tool with a sensor to gain optimal control of the production process.

Tool changer systems are designed to add flexibility to robotic automation processes by enabling robot operators to change tooling quickly and without hassle. A robotic tool changer facilitates easy and quick change of tools – with just a few clicks, you can, e.g., switch your welding gun out with a spray gun. Newer tool changers are designed to be lightweight as to not unnecessarily impact the payload of the robot arm. Some grippers have built-in tool changers.