PlastikCity showcases the top suppliers of grippers and end of arm tooling operating in the UK & Irish plastics industry. Our stringent vetting process ensures that all listed companies boast financial stability and provide premium products or services. Gain a detailed insight into each company by accessing their full profiles. Streamline your decision-making by requesting a free comparative quote for your next project.
We supply Gimatic Plastics self-assembly EOAT for all types of robots. This re-usable modular system is exceptionally high quality and competitively priced allowing the user to custom build assemblies for specific applications.
Gimatic is a global automation tooling supplier. Our Products include a wide range of Handling, Mechatronics, End of Arm Tooling including a large number of products specifically designed for use in the plastics industry. From bespoke design work to installation and setup at your facility.
We provide a complete solution to the medical, technical & packaging sectors, from identifying machinery, moulds & services best suited to each application, to full aftersales support. All our quality products are designed to maximise output, reduce waste & minimise labour requirements.
PC Moulding & Automation specialise in automation of injection moulding equipment. We can design and manufacture bespoke systems using Solidworks, CAD CAM and our in-house CNC machining facility. Within the automation umbrella, we can integrate lasers, routing systems and ultrasonic welding.
Vacucom are specialists in End of Arm Tooling design & manufacture. As specialists in the field of industrial vacuum for more than a decade, we have built a strong reputation based on our ability to provide expert solutions to manufacturing problems.
End of arm tooling (EOAT), also known as grippers, is a critical component of a robotic system that is used in plastic manufacturing processes. EOAT refers to the device or tool that is attached to the end of a robotic arm, allowing the robot to manipulate parts or components as needed during the manufacturing process. EOAT can take many different forms, depending on the specific application and the requirements of the manufacturing process.
In plastic manufacturing, EOAT is used to handle plastic parts or components during various stages of the production process. This may include tasks such as picking up and placing parts in moulds, removing finished parts from moulds, trimming excess material from parts, and inspecting parts for defects.
EOAT is essential in plastic manufacturing for several reasons. Firstly, it can significantly improve the speed and efficiency of the manufacturing process, reducing production times and increasing output. This is because robotic systems with EOAT can perform tasks more quickly and accurately than humans, especially in tasks that require high precision or repeatability.
Secondly, EOAT can help to improve the quality and consistency of the finished product. By using robotic systems to handle parts, the risk of human error or variability is reduced, resulting in more uniform and reliable parts.
Finally, EOAT can improve workplace safety by reducing the need for manual handling of parts, which can be physically demanding and potentially hazardous for workers.
In summary, EOAT plays a critical role in plastic manufacturing processes by improving the speed, efficiency, quality, and safety of the production process. With the increasing use of robotics in manufacturing, EOAT is likely to become even more important in the future, as manufacturers seek to optimise their operations and remain competitive in a rapidly evolving marketplace.