In the fingerprint module manufacturing industry, production processes demand extremely high levels of stability and consistency. From chip bonding and packaging to functional testing, every stage is centered on precision and reliability. Although the movement of materials between warehouses, buffer areas, and production lines may appear straightforward, it directly affects product yield and production rhythm. Compared with pure efficiency, fingerprint module manufacturers place greater emphasis on whether logistics processes are controllable and traceable.
As order volumes continued to grow, a fingerprint module manufacturer in Guangdong faced increasing complexity in its internal logistics operations. With small material sizes, a wide variety of components, and finely segmented production zones, manual handling under high-frequency transport conditions often led to overlapping routes and inconsistent pacing. This created additional pressure on on-site management. In scenarios where multiple processes run in parallel, instability in logistics can easily amplify fluctuations in production.
To enhance the reliability of its internal logistics, the company introduced Reeman AMR transport robots from the Starship series with a 300 kg payload capacity. These robots were deployed to handle automated material distribution tasks between the warehouse and various production areas. By executing transport tasks through system commands, Reeman AMRs reduce human involvement and ensure that material flows are more standardized and controllable.
During deployment, Reeman AMR robots required no complex modifications to the existing workshop. They were able to adapt seamlessly to the original layout. Using autonomous navigation, the robots operate steadily in mixed environments where personnel and equipment coexist, continuously sensing changes in their surroundings and automatically avoiding obstacles to ensure smooth and stable deliveries. This low-interference operating mode is particularly well suited to fingerprint module manufacturing workshops, where production environment requirements are stringent.
With the implementation of point-to-point delivery using Reeman AMR robots, the logistics relationship between the warehouse and production lines has become clearer and more structured. Materials are delivered accurately to designated workstations according to production plans, reducing intermediate buffering and repetitive handling, and helping to lower the risk of material mix-ups. For fingerprint module manufacturers that emphasize process control, such clear logistics pathways provide a stronger foundation for quality management.
In addition, Reeman AMR robots support multi-robot coordination and automatic charging, meeting the demands of multi-shift production operations. Through system-based management, supervisors can monitor material delivery status in real time, enabling internal logistics to transition from "manual dispatching" to "system-driven execution," further enhancing overall operational stability.
After the project went live, the fingerprint module factory achieved efficient and stable material delivery between the warehouse and production lines without increasing manpower. With its reliable performance and high adaptability, the Reeman Starship 300 kg AMR transport robot has successfully integrated into the complex environment of precision module manufacturing, becoming a key component of the company's intelligent manufacturing system.