Reeman Automation

  Transforming Material Handling in Tight Industrial Spaces As Industry 4.0 accelerates worldwide, factory logistics is shifting from human-driven operations to autonomous intelligence. Reeman’s newly launched  Narrow-Aisle Autonomous Forklift  is designed specifically to overcome the long-standing challenges of narrow passageways, low-clearance aisles, and dense production layouts. It redefines smart factory logistics and injects new momentum into automated manufacturing. Designed for Narrow Aisles and Confined Spaces Traditional forklifts struggle in areas with 1.7 m height limitations or tight aisle widths. The Reeman narrow-aisle forklift, engineered with an ultra-compact chassis and exceptional maneuverability, moves effortlessly through restricted zones. This turns previously unusable aisle space into fully functional logistics lanes. With a  1-ton payload , it meets the core transportation needs of electronics manufacturing, pharmaceutical production, automoti...

Solving the Most Common Logistics Pain Points “Narrow aisles make forklifts difficult to maneuver,” “manual handling is inefficient,” and “multi-floor transport requires too much labor”—these problems challenge factories across many industries. The Reeman narrow-aisle autonomous forklift delivers a complete smart logistics solution that ensures smooth and efficient material flow from end to end. Precision and Efficiency for Electronics Manufacturing Electronics production demands highly precise, stable, and error-free logistics. The Reeman forklift navigates effortlessly through dense production lines, and its 1-ton capacity easily handles various electronic components and semi-finished materials. The fully autonomous operation eliminates human errors, while the LiDAR-based obstacle avoidance system ensures safe navigation even in busy workshops. Integration with the warehouse management system enables direct point-to-point delivery—from storage to production line—significantly shorten...

The Limits of Manual Logistics Management In many traditional factories, logistics scheduling depends heavily on manual decision-making: operators decide who moves which materials and when, relying on experience and ad-hoc communication. Once orders increase, lines expand, or product mixes grow, this system quickly becomes chaotic, causing delays, errors, and inefficiencies. Reeman AMR Enables the Shift from Human-Led to System-Led Logistics Reeman AMR robots do far more than replace material handlers—they transform logistics from “experience-driven” to “system-driven.” With intelligent scheduling, all internal logistics activities—including raw material distribution, in-process transfers, and finished-goods movement—are centrally planned and executed. Tasks are automatically assigned, paths are dynamically optimized, and conflicts are resolved in real time. The entire logistics network begins to operate like an invisible, intelligent machine. Unified Coordination Through a Central Sch...

Heavy-Duty Mobility for Modern Industrial Workflows As production cycles accelerate, the limitations of traditional material handling become increasingly apparent. Forklifts struggle with repetitive heavy loads, multi-floor transport relies on manual transfers, and urgent tasks are often delayed. Reeman AMR robots address these challenges with a 600 kg payload, automatic elevator riding, adaptive obstacle avoidance, and one-click remote dispatch—bringing industrial handling into a new era of efficiency, safety, and intelligence. 600 kg Payload for True Heavy-Load Demands The 600 kg load capacity highlights the core strength of Reeman AMR. Engineered with high-strength alloy materials and an optimized transmission structure, the robot maintains a compact design while delivering powerful carrying capability. It can transport bulk components, heavy jigs, and large finished-goods cartons in a single trip, reducing round-trip frequency and boosting line-side replenishment and warehouse turn...

Multi-Robot Operations: The Real Test of an AMR System When a factory deploys only one or two mobile robots, almost any solution can manage basic tasks. But once the fleet grows to ten, twenty, or even dozens of units, the real deciding factor becomes the scheduling system and multi-robot coordination capability. Reeman AMR material handling robots are powered by a centralized intelligent scheduling platform that manages the entire fleet as a unified system. Based on task priority, robot location, battery level, and real-time traffic conditions, the system automatically assigns optimal routes to prevent congestion and reduce unnecessary travel. This significantly boosts overall logistics efficiency. Preventing Congestion and Deadlocks in High-Density Operations In high-density environments—such as parallel production lines, multiple workstation calls, or cross-zone material flows—robots without strong coordination capabilities can easily cause deadlocks, blockages, and delays. Reeman’s...

Material Flow Is the Real Challenge in Small-Batch Production In multi-variety, small-batch production environments, the biggest challenge is not production equipment but material flow. Frequent order changes and complex process routes often overwhelm traditional manual delivery, causing misdeliveries, shortages, and delays. Reeman AMR material handling robots address this bottleneck through an intelligent scheduling system that dynamically assigns tasks according to real-time production plans. No matter how orders change, AMRs automatically adjust routes and delivery frequency to ensure every workstation receives materials precisely when needed. Compared with manual handling, stability and accuracy are significantly improved. Flexible Navigation for Constantly Changing Production Lines In factories where layouts and production lines change frequently, traditional AGV systems require re-laying paths and reconfiguring hardware. This leads to long downtime and high retrofitting costs. Re...

Technology as the Engine Behind Reeman AMR Performance In modern manufacturing, automation has become inevitable—and autonomous mobile robots (AMRs) represent one of the most transformative breakthroughs in this evolution. Among the leading innovators, Reeman distinguishes itself through deep technical expertise and a profound understanding of real factory environments. The Reeman AMR material handling robot is quickly becoming a major force reshaping internal logistics. Multi-Sensor Fusion Enables Intelligent Perception The intelligence of Reeman AMRs begins with their advanced perception system. Equipped with a multi-sensor fusion architecture—including LiDAR, depth cameras, safety bumpers, and ultrasonic sensors—the robot gains 360-degree environmental awareness, seeing and understanding its surroundings in real time. This sensory foundation enables the robot to detect obstacles, identify dynamic elements, and navigate safely even in complex, mixed-traffic environments. Combined wit...

Will an AMR Hit People? Understanding the Safety Behind Reeman’s Industry-Leading Design For many factory owners, the first question when considering robots is always： “Will the robot hit people?” “Is it safe in narrow aisles with workers walking around?” These concerns come from past experiences with traditional AGVs. AGVs rely on magnetic strips or QR codes, cannot “see” their surroundings, and struggle with unexpected obstacles—leading to collisions, scraping, or complete shutdown. Modern AMRs are completely different. Reeman AMR takes safety to an industry-leading standard, far beyond AGVs or basic autonomous carts. 1. Whether a Robot Hits People Depends on What It Can See ① AGVs Cannot See the Real World A traditional AGV: Follows a magnetic or QR path Cannot identify people or pallets Reacts slowly Often shuts down when obstacles appear This is why AGVs frequently bump into goods or freeze in place. ② Reeman AMR Truly “Sees the World” Reeman AMR uses  LiDAR + 3D depth cameras...