Combining the power of Universal Robots’ (UR) collaborative robot (cobot) with MiR’s advanced navigation system, the MC600 offers a seamless and efficient solution for cell manipulation in various industries.

MiR’s MC600 is engineered to deliver reliable cell handling capabilities. Supply: Cellular Industrial Robots

Denmark-based Cellular Industrial Robots (CIR) has unveiled its latest addition to the growing roster of MiR Go-certified products: the MC600, a compact cell collaborative robot designed for flexible manufacturing and material handling applications.

“By harmoniously merging the mechanical legs of cellular robots with the collaborative arms of cobots, the MC600 effectively resolves various automation workflow hurdles, including palletizing and machine tending, in a single, efficient system,” said Jean-Pierre Hathout, President of KUKA Cellular Industrial Robots.

“While some companies have experimented with robots or customised cobots for routine tasks, these solutions remain confined to niche applications, lacking widespread adoption in industry.” “The MC600 is poised to tackle even the most complex automation hurdles head-on.”

Cellular Industrial Robots creates and produces autonomous cellular robots that streamline internal logistics by efficiently handling a range of payloads, including pallets. Teradyne’s Odense-based unit leverages the fusion of robotics and artificial intelligence to cater to companies of diverse sizes across industries such as manufacturing, logistics, and healthcare.

MC600 combines Teradyne applied sciences

The MC600 integrates the MiR600 autonomous mobile robot (AMR) with the UR20 and UR30 arms from Universal Robots, a subsidiary of Teradyne. Cellular Industrial Robots boasts the ability to handle payloads of up to 600 kilograms (1,322 pounds), streamlining complex workflows in industrial settings through automation.

Companion-enabled robotics’ unified software program platform governs the MC600. Mir coordinates cell bases and robotic arms, streamlining integration into existing workflows and facilitating seamless clean operations.

According to Ujjwal Kumar of [company name], the smaller MC250 has consistently proven popular in semiconductor fabrication services and other low-payload manufacturing applications; however, there’s been a clear demand for a cell cobot capable of handling heavier manufacturing duties. “The MC600 consistently demonstrates our commitment to providing customers with the flexibility, security, and efficiency they require for their unique automation needs.”

Kumar participated in a  on the 2024 Robotics Summit & Expo.

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MC600 guarantees efficency, flexibility

According to Cellular Industrial Robots, the global market for cell cobots, offering eco-friendly and flexible automation solutions, is expected to grow at a remarkable rate of 46% annually by 2030. The MC600 offers a reliable, safeguarded, and deploy-ready system engineered for seamless usability, consistency, and continuous support.

“For corporations seeking scalable automation solutions, the MC600 offers operational effectiveness and enduring reliability.”

Building upon the success of its predecessor, the MC250, the MC600 is designed to handle more substantial devices, automating tasks such as field maintenance and operations, as exemplified by leading robotics provider MiR. The UR20’s extended reach capabilities enable the latest robotic arm to tackle tasks previously out of reach for smaller cobots, opening up new possibilities for industrial automation.

According to MiR, the MC600 boosts productivity by operating continuously with minimal downtime, efficiently supporting multiple machines, and consistently handling materials, thereby streamlining production processes. This enables firms to redirect their human workforce to more valuable tasks.

Moreover, by dynamically handling heavy objects, the MC600 can significantly boost workplace ergonomics, alleviating physical strain on staff while concurrently fortifying office safety, according to MiR.

Cellular Industrial Robots has announced that it will unveil the MC600 for practical real-world applications in the following week at .

ASTM proposes cell manipulation commonplace

ASTM International’s Robotics Committee has proposed a novel standard for robotics, automation, and autonomous systems.

It provides guidelines for recording disruptions to robotic limbs, analogous to those caused by heavy machinery, within unpredictable production settings. The proposed commonplace describes a standardised device for conducting tests.

According to Omar Aboul-Enein, a prominent member, cell manipulators necessitate exceptional degrees of precision regarding placement, orientation, and repeatability.