Labor Pressure Is Becoming a Bottleneck in Automotive Manufacturing
With the explosive growth of the new energy vehicle industry, the automotive supply chain is accelerating toward intelligent transformation. Material handling inside workshops, as a critical link across the production process, has long suffered from high intensity, high risk, and low efficiency, gradually becoming a bottleneck to factory upgrades.
In traditional automotive plants, parts handling and line replenishment rely heavily on manual labor. Workers frequently travel between warehouses and production stations, performing repetitive and physically demanding tasks. This not only increases fatigue and error rates, but also brings safety risks such as forklift collisions and heavy-load injuries.
More importantly, manual handling cannot support 24-hour continuous operation due to physical limits. Overtime costs, labor turnover, and unstable efficiency continue to trouble plant managers and directly restrict capacity growth.
A Practical Alternative to Heavy Manual Handling
Against this backdrop, Reeman AMR delivery robots provide a practical and scalable alternative. Powered by advanced robotics technology, they are designed to solve workforce pain points in automotive factories and replace high-intensity manual transport work.
Compared with human labor, Reeman AMR delivery robots operate continuously without breaks, fatigue, or shift constraints. They support true 7×24-hour operation, significantly improving the continuity of internal material flow.
For high-load scenarios such as stamping workshops and final assembly areas, Reeman AMRs are built with reinforced wear-resistant chassis and distributed drive systems. They can transport everything from precision electronic parts to heavy engine assemblies, with payload capacity up to 600 kg. This makes them well suited for the multi-category, heavy-load transport needs of the automotive supply chain.
By taking over repetitive and risky transport tasks, AMRs allow workers to shift toward higher-value roles such as equipment monitoring and process optimization, reducing labor management pressure while improving employee satisfaction.
High Intelligence and Reliability in Complex Workshops
The core strength of Reeman AMR delivery robots lies in their intelligence and reliability. Using advanced SLAM navigation algorithms and multi-sensor fusion perception, robots continuously sense their surroundings and accurately identify both dynamic obstacles (such as workers and forklifts) and static ones (such as racks and equipment).
They respond in milliseconds and autonomously reroute when needed, with positioning accuracy controlled within ±1 cm, ensuring safe and stable operation.
Deployment is lightweight and fast. No large-scale modification of the existing workshop layout is required. Mapping and commissioning can be completed in as little as 30 minutes, allowing quick integration into automotive production workflows while minimizing deployment cost and time.
Today, Reeman AMR delivery robots are widely used across automotive parts manufacturing and vehicle assembly operations, supporting factories in achieving reduced staffing and unmanned logistics operations.
