MiR500 is designed to automate the transportation of pallets and heavy loads across industries. With a total payload of 500 kg, and a footprint of 1350x920 mm, MiR500 is a large, powerful and robust collaborative, autonomous mobile robot
The MiR200 is a safe, cost-effective mobile robot that quickly automates your internal transportation and logistics. The robot optimizes workflows, freeing staff resources so you can increase productivity and reduce costs.
The MiR250 is a more flexible AMR that can work around the clock and is brilliantly simple to setup, for improved productivity. Its smaller footprint and increased adaptability help optimize internal logistics without changing layout.
Built to do more, the UR16e delivers an impressive 16 kg of payload for a wide range of heavy-duty applications. Designed and built by Universal Robots, the UR16e is easily integrated into existing production environments.
Lightweight, easily programmable and highly customizable, the UR5 is designed to integrate seamlessly into any production facility regardless of industry, size or precise application.
The MiR100 is a safe, cost-effective mobile robot that quickly automates your internal transportation and logistics. The robot optimizes workflows, freeing staff resources so you can increase productivity and reduce costs.
The UR3 collaborative robot is Universal Robots’ smallest collaborative table-top robot. It is perfect for light assembly tasks and automated workbench applications. The compact table-top cobot has ±360-degree rotation on all wrist joints, and infinite rotation on the end joint.
MiR1000 is designed to automate and optimize the internal transportation of heavy duties and pallets. With a total payload of 1,000 kg, this is MiR’s most powerful robot, and even in highly dynamic environments it can transport heavy loads without any exterior safety measures.
UR10e is an extremely versatile collaborative industrial robot arm with its high payload (10kg) and long reach capability. Its 1,300mm reach spans wide workspaces without compromising precision or payload performance.