Date
2025-03-26
Regardless of type, the ultimate pinnacle of robotics lies in semi-autonomous driving capabilities that operate independently under the fundamental guidance of the system, without risks. BRILS’ Hybrid AMR can undoubtedly be described as a clear innovation in robotic automation solutions that align precisely with the trajectory of cutting-edge automation technology. Focused on achieving flawless navigation, these logistics robots are the result of the extensive integration of BRILS’ automated system design expertise, culminating in two types of Hybrid AMR—the BRS M Series products.
This hybrid mobile robot series differs fundamentally in driving mechanisms compared to other autonomous products. Equipped with high-performance real-time motion detection sensors, it can detect obstacles in 360° directions and stop autonomously. It performs reliably even in impact-sensitive industrial environments, functioning seamlessly alongside human workers in shared workspaces. In addition, Hybrid AMR Series operates on a customized robotic solution subpart called the Wheeltrain. Though not easily noticeable from the exterior, BRILS’ Wheeltrain adjusts its movement to maintain balance regardless of the flooring material, thereby minimizing the risk of the autonomous mobile robot toppling over and significantly reducing operational error margins.
Another easily noticeable advantage of this series is the high versatility inherent in all BRILS’ collaborative robot systems. The robots mounted on the robotic technology platform are meticulously designed cobots by BRILS, allowing users to fully leverage benefits such as explosion-proof designs, precision mobility, and customization, which are features of the BRS C Series industrial robots. Furthermore, customers can choose between models from the BRS C Series for the upper robot parts, significantly expanding the range of options available. By default, BRILS’ AI-based robots are capable of docking a variety of specialized devices onto the tip of the robotic arm to perform a majority of process tasks, including material handling, assembly, inspection, and precision machining. These logistics robots, capable of flawless operation without malfunctions or errors in any work environment, are the culmination of decades of innovation brought to reality.
A notable yet subtle advantage of the Hybrid AMR robot series is its ease of management. While there are differences between the two products, they feature powerful batteries capable of non-stop operation for up to 8 hours after approximately 2 hours of charging. Additionally, the charging methods are varied—contact, wireless, and automated—making operational time management highly convenient. By utilizing the robotic system integration solution provided by BRILS, users can simultaneously control and monitor the Wheeltrain and collaborative robots through BRILS’ proprietary robotic integration platform, all from a single screen with simple touch commands, ensuring practical convenience during real-world operations. Moreover, the open controller pendant attached to the product offers an alternative method for operating the Hybrid AMR series beyond its pre-learned paths, further enhancing accessibility and making these robots even more user-friendly.
Robots working alongside humans in smart factories are no longer a vision of the future. Positioned at the heart of this once-imagined reality, BRILS aims to create industrial environments where humans and robots collaborate within the same space and coexist economically. The company plans to continue designing semi-autonomous robots, including the Hybrid AMR series, to further this vision.
Another easily noticeable advantage of this series is the high versatility inherent in all BRILS’ collaborative robot systems. The robots mounted on the robotic technology platform are meticulously designed cobots by BRILS, allowing users to fully leverage benefits such as explosion-proof designs, precision mobility, and customization, which are features of the BRS C Series industrial robots. Furthermore, customers can choose between models from the BRS C Series for the upper robot parts, significantly expanding the range of options available. By default, BRILS’ AI-based robots are capable of docking a variety of specialized devices onto the tip of the robotic arm to perform a majority of process tasks, including material handling, assembly, inspection, and precision machining. These logistics robots, capable of flawless operation without malfunctions or errors in any work environment, are the culmination of decades of innovation brought to reality.
A notable yet subtle advantage of the Hybrid AMR robot series is its ease of management. While there are differences between the two products, they feature powerful batteries capable of non-stop operation for up to 8 hours after approximately 2 hours of charging. Additionally, the charging methods are varied—contact, wireless, and automated—making operational time management highly convenient. By utilizing the robotic system integration solution provided by BRILS, users can simultaneously control and monitor the Wheeltrain and collaborative robots through BRILS’ proprietary robotic integration platform, all from a single screen with simple touch commands, ensuring practical convenience during real-world operations. Moreover, the open controller pendant attached to the product offers an alternative method for operating the Hybrid AMR series beyond its pre-learned paths, further enhancing accessibility and making these robots even more user-friendly.
Robots working alongside humans in smart factories are no longer a vision of the future. Positioned at the heart of this once-imagined reality, BRILS aims to create industrial environments where humans and robots collaborate within the same space and coexist economically. The company plans to continue designing semi-autonomous robots, including the Hybrid AMR series, to further this vision.