Multi-Axis Robotic System with Laser Scanning
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12m Ground Rail / Cantilever Welding Robot System
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| The 12m Ground Rail / Cantilever Welding Robot System is designed for long-length, large- scale, and highly repetitive steel structure welding applications. It is widely used for H- beams, columns, frames, and other heavy-duty workpieces. By combining a long-travel linear movement structure with an intelligent welding control platform, the system delivers wide coverage, stable welding performance, and a high level of automation, providing steel structure manufacturers with a truly practical path toward welding automation. |
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| In steel structure manufacturing, welding quality consistency, production efficiency, and labor dependence are long-standing challenges. This system is developed specifically to address these real production needs, helping manufacturers improve efficiency while maintaining welding quality and reducing long-term operational risks. |
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12m Long-Travel Design for Large Workpiece Welding
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| With a 12-meter ground rail or cantilever structure, the robot can move flexibly across a wide working range to cover multiple weld seams on long workpieces. Compared with fixed robotic systems, this design is better suited for continuous welding of beams, columns, and large structural components, effectively reducing workpiece flipping, repeated positioning, and manual intervention, thereby improving overall efficiency and welding consistency. |
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| This structure is especially suitable for steel fabrication workshops with long workpieces, multiple weld seams, and high production repetition. |
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Reverse Modeling for Standardized H-Beam Stiffener Welding
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| The system supports reverse modeling functionality, primarily applied to standardized and repetitive H-beam stiffener welding applications. In such scenarios, it helps simplify preparation work and improve welding efficiency, making it a practical auxiliary automation solution for standardized production lines. |
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| This function focuses on efficiency and convenience rather than covering all complex structures, and is best suited for clear and regular welding applications. |
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CAD Model Import for Complex Structures — Stable and Repeatable
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| For complex structures, diverse weld types, or applications with high welding quality requirements, the system supports generating welding paths through 3D CAD model import. This method does not rely on traditional teach-pendant point-by-point programming and is considered a mature teaching-free welding solution, offering higher stability and consistency for complex applications. |
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| In real production environments, this approach better supports process standardization, repeatability, and long-term stable operation, making it ideal for engineering structures and high-requirement projects. |
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No Teach Pendant Programming for Easier Automation Adoption
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| The system does not rely on traditional teach-pendant programming. Welding paths are planned and managed centrally through the control platform. This significantly reduces dependence on highly experienced robot programmers and makes welding automation easier to implement and maintain in real production environments. |
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Industrial-Grade Stability for Mass Production
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| Designed around real production conditions, the system is suitable for multi-shift and long- term continuous operation. While ensuring consistent weld quality and formation, it helps reduce rework rates, improve overall welding efficiency, and promote standardized, process-driven welding production. |
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