Reeman Automation

  A New Morning on the Factory Floor Early in the morning, factory workshops are no longer filled with workers pushing material carts through narrow aisles. Complaints about congestion have disappeared. Instead, Reeman AMR robots move in perfect order—precisely picking materials from raw material warehouses, traveling along optimized routes to production lines, and automatically delivering finished goods to designated storage locations. The entire process runs without human intervention, presenting a new vision of intelligent logistics. High-Efficiency Picking in E-Commerce Warehouses In e-commerce warehouses, order volume surges no longer cause chaos. The Reeman “Big Dog” AMR series features a compact and agile design, allowing smooth navigation through dense shelving and narrow aisles. With one-hour fast charging, automatic low-battery recharging, and high-precision picking, sorting accuracy approaches zero error. Warehouse throughput easily doubles, even during peak sales period...

  Vertical Production Drives New Logistics Challenges As electronics manufacturers in Shenzhen continue to expand capacity, factory buildings are increasingly shifting toward multi-floor and vertical layouts. As a result, material flow paths have become far more complex. High-frequency interactions between warehouses, kitting areas, SMT lines, and assembly lines place significantly higher demands on logistics system flexibility and responsiveness. Deploying Reeman Shuttle AMRs for Core Transport Tasks During its latest phase of intelligent factory upgrading, this large electronics manufacturer chose to deploy Reeman Shuttle AMR material handling robots. With a rated payload of 300 kg and a rack-lifting solution, the Shuttle AMRs cover core transport routes from warehouse to production lines. Without the need for large-scale on-site modifications, the robots were rapidly deployed, significantly shortening the overall project implementation cycle. Stable Operation in Complex, High-Tr...

  More Than Cost Savings: A Digital Transformation Enabler As manufacturing competition intensifies, enterprises are shifting their core objective from simple cost reduction to comprehensive digital transformation. The value of Reeman AMR autonomous forklifts extends far beyond material handling—they serve as foundational infrastructure for enterprise digitalization. By enhancing cost control, operational efficiency, and data intelligence, Reeman AMRs help enterprises build sustainable competitive advantages and seize opportunities in the Industry 4.0 era. Measurable Cost Control and Rapid ROI From a cost perspective, Reeman AMR autonomous forklifts deliver tangible financial returns. A single AMR can replace three manual handling positions while operating continuously around the clock, unaffected by fatigue or holidays. Based on average labor costs, many enterprises recover their equipment investment within just a few months through labor savings alone. More importantly, the high-...

  Full-Scenario Adaptability Meets Custom Solutions The complexity and diversity of industrial environments place extremely high demands on the adaptability of intelligent logistics equipment. Material characteristics, operating conditions, and compliance standards vary significantly across industries and production stages. Single-function logistics equipment can no longer meet modern manufacturing needs. Leveraging a modular design philosophy and highly customized solutions, Reeman AMR autonomous forklifts now cover a full range of material handling scenarios—from lightweight precision components to heavy-duty industrial parts—successfully serving electronics manufacturing, automotive production, pharmaceutical cold chain, and e-commerce warehousing. Reeman has emerged as a true cross-industry logistics solution expert, breaking the long-standing limitation of “one machine, limited scenarios.” Precision Logistics for Electronics Manufacturing In electronics manufacturing, transpor...

 With the rapid growth of the new energy vehicle market and increasingly personalized consumer demand, the automotive parts industry is undergoing profound transformation. Smart factory development has shifted from an optional initiative to a strategic necessity. However, production logistics—spanning the entire manufacturing process—has emerged as a critical bottleneck. Traditional “manual handling plus forklifts” models struggle to meet requirements for high product diversity, small batch sizes, and precision delivery, resulting in low efficiency, high error rates, and rising operational costs. Reeman AMR mobile robots offer a comprehensive intelligent logistics solution, becoming a key driver of smart factory transformation. Reeman’s technological innovation is rooted in a deep understanding of industrial scenarios. By integrating lidar-based autonomous driving technology with visual recognition systems, Reeman has developed intelligent material handling systems capable of auto...

 In the printer electronics manufacturing industry, products integrate precision mechanical structures, electronic control modules, and consumable components. Production processes demand high levels of stability and accuracy in material delivery. Print modules, main control boards, and housing components circulate frequently between different processes. When logistics fail to keep pace, production efficiency suffers and process backlogs extend delivery cycles. During its capacity expansion phase, a printer electronics factory in Guangdong identified internal logistics as a priority for intelligent upgrading. The factory operates across multiple floors, with warehouses separated from assembly, testing, and packaging lines. Materials are mainly transported using mobile racks, with single transfer loads averaging around 300 kilograms. Traditional manual delivery and fixed-time transport methods proved slow to respond under multi-model parallel production. To improve overall efficiency...

In the audio electronics manufacturing industry, products typically include power amplifier modules, speaker units, power boards, and final assembly systems. Material types are diverse, circulation frequency is high, and internal logistics require strict timeliness and stability. Especially in multi-model parallel production, any disruption between warehouses and production lines can easily lead to workstation waiting and reduced assembly rhythm. During its smart factory upgrade, an audio electronics manufacturer in Guangdong identified internal logistics as a critical breakthrough point. The factory operates across multiple floors, with frequent material movement between warehouses, assembly lines, and testing areas. Materials are mainly transported using mobile racks, with single transport loads of approximately 300 kilograms. Traditional manual handling and fixed delivery schedules struggled to meet flexible dispatch requirements during peak production periods. To address this chall...

 As the automotive industry accelerates toward intelligence and electrification, automotive parts manufacturers—key pillars of the supply chain—are actively advancing smart factory initiatives. However, traditional production logistics models have become a major bottleneck. Thousands of part types, wide variations in size and weight, and the rise of small-batch customized orders driven by new energy vehicles have made conventional “manual handling plus forklifts” increasingly inadequate for high-mix, high-precision logistics requirements. Reeman AMR mobile robots address these challenges through deep adaptation to complex industrial logistics scenarios. The company offers a comprehensive AMR product portfolio with load capacities ranging from 60 kg to 1.5 tons, enabling precise alignment between logistics equipment and production needs. Light-duty autonomous robots move flexibly between production lines with centimeter-level positioning accuracy, ensuring seamless material flow fr...

  Heavy-Load Logistics Challenges in Luggage Manufacturing In the luggage manufacturing industry, internal logistics are often challenged by large material volumes, heavy unit weights, and long process spans. From raw leather and accessories inbound storage to semi-finished transfers and finished goods outbound consolidation, warehouses and production lines require frequent heavy-load transport. If logistics coordination becomes inefficient, workstation waiting and production rhythm imbalance can directly impact delivery schedules. Limitations of Manual Forklift Operations As order volumes continued to grow, a luggage manufacturing enterprise in Guangdong recognized that traditional manual forklifts and experience-based dispatching could no longer support its production scale. Manual forklifts rely heavily on skilled drivers, involve high scheduling randomness, and introduce safety risks, becoming key constraints on efficiency and refined management. To address this, the factory in...

  High-Standard Logistics Requirements in Medical Manufacturing In medical device and medical electronics manufacturing, production environments demand far higher levels of stability, traceability, and safety than general manufacturing. Raw materials, semi-finished products, and finished goods move frequently between processes, and any disruption in delivery rhythm can affect not only efficiency but also quality control compliance. During a production upgrade phase, a medical manufacturing plant in Shenzhen identified internal logistics as a key breakthrough point to elevate its overall manufacturing standards. Challenges of Multi-Floor and Multi-Type Material Handling The factory’s workshops and warehouses are distributed across multiple floors, handling a wide variety of materials, including standard material boxes and full rack systems. Traditional manual handling relied heavily on carts and personnel, resulting in unstable efficiency, slow cross-floor coordination, and limited ...

  Stable Production Rhythm in Automotive Parts Manufacturing In the automotive parts manufacturing industry, production rhythm stability directly affects supply chain delivery performance. Factories typically handle a wide variety of components, frequent process changes, and dense work-in-progress flows. In production models where assembly, sub-assembly, and inspection operate in parallel, material delivery between warehouses and production lines must be not only punctual but also flexible and traceable. Logistics Bottlenecks During Capacity Expansion During capacity expansion, an automotive parts factory in Guangdong found that manual material handling could no longer support increasing logistics demands. Frequent personnel movement, inefficient cross-floor transport, and slow response to urgent orders became key constraints on production rhythm. To address these challenges, the factory introduced Reeman AMR transport robots from the Big Dog Series to systematically upgrade its in...

  Digital Transformation as a Core Industrial Strategy Digital transformation has become a critical strategy for enterprises seeking competitiveness in the Industry 4.0 era. As a key component of production and operations, logistics directly affects overall efficiency and decision-making quality. In traditional logistics systems, problems such as data opacity, weak equipment collaboration, and experience-based management often limit digital progress. Reeman autonomous forklifts are not only efficient material handling tools but also serve as a core entry point for industrial logistics digitalization, enabling enterprises to build a visible, traceable, and optimizable smart logistics ecosystem. Seamless System Integration and End-to-End Automation One of the core strengths of Reeman autonomous forklifts lies in their powerful system integration capabilities. They seamlessly connect with WMS (Warehouse Management Systems) and MES (Manufacturing Execution Systems), while also collabor...

  Safety as a Core Requirement in Industrial Environments In industrial workplaces, scenarios where personnel and equipment operate in close proximity are unavoidable. Safety management remains a top priority for enterprises. Traditional manual forklifts are prone to accidents caused by operator error, distraction, or non-compliant behavior, leading to collisions, rack damage, or falling cargo. Such incidents result not only in property loss but also serious risks to worker safety. Reeman autonomous forklifts are designed with industrial safety as a core focus, integrating advanced technologies to build a comprehensive safety protection system. Comprehensive Environmental Perception Without Blind Spots Full-area environmental perception forms the foundation of safe operation. Reeman autonomous forklifts integrate LiDAR, vision cameras, and ultrasonic sensors to create a 360-degree perception system with no blind zones. This multi-sensor network accurately detects obstacles within a...