Lunasol Logistics
Explore our CE-certified range of latent, traction, forklift, and customized industrial robotic systems engineered for 24/7 manufacturing operations.
Pioneering Smart Intra-logistic Systems & Heavy-duty Autonomous Robotics out of Dalian, China.
As a technology-driven manufacturing enterprise, Daian Lunasol Logistics Technology Co., Ltd. sits at the vanguard of the automation and robotics sector. We specialize in research, development, assembly, global distribution, and end-to-end technical support for automated systems. Our solutions range from highly agile 0.5-ton AGVs designed for compact electronics assembly lines to monolithic 100-ton capacity robotic transporters engineered for shipyards and metallurgy plants.
By integrating state-of-the-art navigation configurations—including laser SLAM, QR-code positioning, and magnetic guidance—our engineering team delivers robust, adaptable material movement systems. We maintain complete ownership of our intellectual property, designing and manufacturing our own AGV guidance controllers, high-fidelity guidance sensors, advanced Lithium Battery Management Systems (BMS), and automated online charging portals. This deep vertical integration guarantees exceptional hardware compatibility, high system uptime, and simplified maintenance pathways.
Our global footprints span high-consequence industries, serving automotive production, shipbuilding, steel mills, rail transit networks, and pharmaceutical warehousing. We take pride in supporting world-class manufacturing groups, including FAW Flag, CIMC Group, Yada New Materials, Zoomlion, and Russia Federal Railways, delivering reliable automation solutions that yield quantifiable productivity increases.
The transformation of the global manufacturing sector through Autonomous Mobile Robots (AMR) and AGV systems.
Global production hubs face unprecedented skilled labor shortages. Implementing reliable AGV forklift fleets and pallet transport robots allows operators to transition human capital to high-value analytical tasks while keeping material flow active 24/7.
Modern factory architecture demands complete systems integration. Our automated guided vehicle systems interface natively with existing Manufacturing Execution Systems (MES) and Warehouse Management Systems (WMS) to create dynamic, self-optimizing material flows.
Human-driven forklift operation remains a leading cause of industrial workplace injuries. By introducing laser-navigated forklift AGVs equipped with safety LiDAR scanners, manufacturers drop accident rates to virtually zero, shielding assets and operators.
Unlike traditional automated guided vehicles that require physical floor tapes or wire paths, modern AMR technology utilizes advanced SLAM (Simultaneous Localization and Mapping). This enables robots to dynamically reroute around obstacles, eliminating production bottlenecks and reducing installation times by up to 70%.
Why manufacturing partnerships with Daian Lunasol deliver unparalleled performance advantages.
China's dominance in industrial robotics stems from a highly integrated supply chain network. At Daian Lunasol, we leverage this localized ecosystem to combine fast prototyping cycles with rigorous quality testing protocols, allowing us to supply premium automated systems at a competitive Total Cost of Ownership (TCO).
| Performance Metric | Traditional Systems | Daian Lunasol Systems |
|---|---|---|
| Lead Time (Custom design) | 24 - 36 Weeks | 12 - 16 Weeks |
| Navigation Accuracy | ± 15 mm | Up to ± 5 mm |
| BMS Life Cycles | ~1,500 Cycles | > 3,500 Cycles (LiFePO4) |
| System Commissioning | 4 - 6 Weeks | 1 - 2 Weeks (SLAM) |
Industrial workhorses optimized for dynamic environments and high-load cycles.
The piggyback AGV adopts a robust, load-bearing structural frame, engineered specifically to support structural workpieces and travel in omnidirectional configurations. These automated systems enable fluid, step-by-step transportation of raw parts, castings, or completed sub-assemblies across different factory workstations.
By utilizing multiple synchronized backpack AGVs, engineers can form a flexible, virtual assembly line. This eliminates the need for fixed floor conveyors, permitting plant layouts to change dynamically in response to new product requirements.
Forklift-type AGVs are the backbone of modern raw material warehouses and finished product distribution centers. Widely used for heavy-object lifting and vertical rack integration, these robotic forklifts combine impressive vertical lift capabilities with dynamic spatial awareness.
Designed with a compact mechanical footprint, our forklift AGVs feature a tight turning radius. This allows them to operate in narrow aisles (VNA), optimizing space utilization while handling payloads up to 5,000 kg.
Tailoring high-performance robotic configurations to solve sector-specific challenges.
In automotive assembly facilities, our heavy-duty latent and piggyback AGVs handle the transport of vehicle frames. Operating under millisecond-level synchronization, these AGVs move along the assembly line in coordination with overhead welding robots, enabling continuous flow manufacturing.
Handling hot or cold-rolled steel coils weighing up to 50 tons requires robust mechanical engineering. Our heavy-duty linkage AGVs feature reinforced chassis and advanced hydraulic lift platforms, transporting large metal loads safely through hot, high-dust foundry environments.
Handling materials like monoammonium phosphate or highly corrosive fertilizers presents health risks to human workers. Our specialized anti-corrosion depalletizing robots operate in sealed, corrosive atmospheres to safely unpack, sort, and process toxic materials.
Crucial technical details to evaluate when importing robotic manufacturing systems.
Meets EN ISO 3691-4 and EN ISO 12100 safety frameworks.
Procurement directors and warehouse managers face complex safety and engineering decisions when choosing an automation partner. To help streamline the selection process, we have outlined the core technical milestones required for global deployment:
Key technologies driving efficiency and intelligence in industrial environments.
The integration of artificial intelligence with AMR fleet managers allows vehicles to analyze traffic congestion in real time. Systems can predict path delays and dynamically adjust routes to maintain consistent cycle times.
Modern facilities often feature mixed environments, from crowded aisles to open loading docks. Hybrid systems combine laser SLAM with QR code or magnetic backup guidance, ensuring smooth transitions across varying areas.
Mounting collaborative robotic arms directly onto autonomous mobile bases creates mobile manipulator platforms. These mobile cobots can pick parts, transport them to assembly stations, and complete assemblies on the move.
Expert technical answers regarding safety, system deployment, and operational ROI.
Our AGVs feature multi-layered safety systems, including safety PLCs (PLd level), 360-degree LiDAR scanners, mechanical bumper switches, and dual emergency-stop buttons on both sides of the vehicle. The LiDAR safety zones adjust dynamically based on the vehicle's speed and steering angle, preventing collisions with human personnel, factory pillars, and loose inventory items.
Our automated guided vehicles interface with WMS and MES systems using standard API protocols (RESTful APIs, TCP/IP, Modbus, or MQTT). This integration allows the fleet manager to receive real-time material handling requests, assign tasks to the nearest available vehicle, track inventory movement, and report diagnostic statuses to the primary management system.
We equip our industrial robots with high-density Lithium Iron Phosphate (LiFePO4) battery packs. These packs provide 8 to 10 hours of continuous operation on a full charge and support over 3,500 charging cycles before capacity drops below 80%. When configured with our automatic slide-contact online chargers, the vehicles recharge during idle periods, enabling 24/7 continuous operation.
Yes. We specialize in designing corrosion-resistant options, such as our Benson closed depalletizing robot. These systems feature fully enclosed drive units, stainless steel or epoxy-coated structures, and IP65-rated electrical cabinets, protecting internal systems against chemical exposure and particulate contamination.
Our product line starts at 0.5 tons for light-duty warehouse tasks and scales up to 100 tons for heavy industrial applications. For heavy transport, we utilize multi-wheel drive structures and synchronized linkage controllers to distribute load weights evenly, protecting facility floors and maintaining stability.
Using laser reflector navigation or natural feature SLAM navigation, our forklift AGVs achieve docking accuracy of ±5mm to ±10mm. If your application requires higher precision, we can integrate secondary sensors, such as high-frequency 3D cameras or magnetic sensors, to achieve ±2mm accuracy at critical transfer points.
We provide comprehensive remote deployment assistance, including digital twin environment mapping and pre-programming. For on-site setup, we send experienced application engineers to manage physical installation, system testing, and operator training, ensuring your system integrates smoothly with local workflows.
Most of our clients achieve full ROI within 12 to 18 months, depending on their local labor rates and daily operating hours. ROI is driven by three main factors: reduced human labor costs, decreased product and facility damage, and higher material processing speeds.
High-fidelity robotic platforms designed for dynamic warehouse environments and complex line assembly.