Stay Informed. Stay Ahead.
"One Machine, Infinite Adaptations". Unlock Endless Possibilities with AMRs.
Paradigm Shift in Mobile Robotics
No.1 From Dedicated Tools to a Universal Platform
Traditional AGVs/AMRs were typically designed for specific tasks: whether for transportation, sorting, or delivery. Once requirements change, these devices face significant cost pressures for modification or replacement.
The concept of “Flexible AMRs” fundamentally breaks through these limitations. We believe future mobile robots should not be “specialized tools” with fixed functions, but rather “universal platforms” capable of expanding alongside evolving business needs.
No.2 Three Core Breakthroughs of Flexible AMRs
Standard Mobile Chassis
Provides stable and reliable mobility, capable of navigating complex factory environments.
Open Control Protocol
Offers standardized, easy-to-integrate interfaces, enabling rapid connection with custom upper attachments and business systems for seamless integration.
Modular Design
Supports the combination of various upper modules such as robotic arms, conveyor mechanisms, shelves, and rollers, achieving “one machine for multiple uses” across diverse scenarios and modes.
Three Evolutionary Forms
No.1 Intelligent Delivery
Utilizing standardized mobile chassis equipped with customized carriers such as lifting modules and rollers, AMRs transcend simple point-to-point transportation. They autonomously dock with production line stations, precisely execute material delivery and circulation tasks, delivering an efficient and accurate “goods-to-person” experience.
No.2 Flexible Assembly
Equipped with a standard mobile chassis, high-precision collaborative robotic arms, and 3D vision systems, AMR robots can autonomously navigate between production lines. Upon reaching designated workstations, they perform complex tasks such as packaging, palletizing, loading/unloading, and quality inspection – duties previously reliant on manual labor.
No.3 Swarm Collaboration
Multiple AMRs of varying configurations accomplish complex manufacturing tasks through a unified dispatch system. Within this dynamic network, tasks are intelligently allocated, with robots sharing real-time environmental data and task status. This enables collaborative optimization of operational paths, maximizing overall system efficiency.
