You are using an outdated browser version of the Internet Explorers. Please update your browser for ideal presentation of the website.
The KR QUANTEC portfolio of high payload robots delivers success with the best reach and payload in this category. With an all-purpose design, it is built to work in virtually any market segment, from automotive to foundry to medical – and everything in between.
Optimized portfolio for maximum flexibility and low total cost of ownership
The KR QUANTEC portfolio was developed with KUKA’s decades-long experience in automation as a base. The result: a reliable, versatile and efficient high-quality solution for your production environment. Customers benefit from the uniquely wide range of possible applications using KR QUANTEC robots that deliver striking performance, cost-effectiveness and flexibility. A slimmer modular system supplies flexible robots that are well-matched to their tasks, have fast delivery times and provide a low total cost of ownership – largely through optimized maintenance and a reduced number of spare parts. The robot portfolio also offers the capability to upgrade payloads in the field and deliver ideal process quality through Motion Modes. These software add-ons make the KR QUANTEC a highly flexible machine and secure your future investment in production operations.
120 - 210Payload [kg]
2701 - 3100Reach [mm]
From standard configuration to a process-optimized machine – with digital motion modes
With the motion mode software add-ons, the KR QUANTEC series offers the ad hoc option of modifying the robot’s capabilities in processes or process sub-steps. For example, a robot can be set to optimal dynamic performance when not carrying a load or to absolute path accuracy for handling a workpiece. Availability of the two motion modes “Dynamic mode” and “Path mode” for the KR QUANTEC series is scheduled for the second half of 2019.
Flexible cell and system planning
With its reduced disruptive contours, more streamlined wrist and smaller footprint, the KR QUANTEC series simplifies engineering even in complex applications. Furthermore, the optimized contours of the innovative energy supply system also ensures easier simulation and more cost-effective cell planning. The short stopping distances of the robots also make it easier to deliver compact cell and system designs, and enable flexibility in system planning and implementation.