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Robot laser intelligent additive manufacturing system

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Presentation of the equipment's characteristics

The robot laser intelligent additive manufacturing system is a laser cladding processing system independently developed by Huirui with robots as the core of motion and can adapt to various complex structures and non-standard parts. The system configuration is flexible and diverse. Robots of different specifications can be configured according to customer application scenarios. At the same time, positioners, turntables, and slides can be selected to adapt to laser cladding processing and surface treatment of different types of workpieces.

iLAM® Series Introduction

Intelligent Laser Additive Manufacturing The laser intelligent additive manufacturing system is a laser cladding processing system independently developed by Huirui with robots as the core of motion and can adapt to various complex structures and non-standard parts. The system configuration is flexible and diverse. Robots of different specifications can be configured according to customer application scenarios. At the same time, positioners, turntables, and slides can be selected to adapt to laser cladding processing and surface treatment of different types of workpieces.

processed samples
  • The robots are from well-known brands at home and abroad, with an arm span of 1m-2.5m and a load capacity of 7-70kg;
  • The motion repeatability positioning accuracy can reach up to ±0.03mm, and the laser power is 2000-12000W;
  • The software and hardware system has good openness and operability, making it easy to upgrade and expand new functions;
  • Equipped with the laser head, nozzle, and powder feeder independently developed by Huirui, it can accurately control the powder feeding flow and spot size to meet the needs of efficient repair and molding of high-precision parts;
  • It is equipped with a sliding table, turntable or cradle positioner to achieve eight-axis synchronous linkage and high-precision positioning with the robot, which can meet the repair or molding of complex parts;
  • Self-developed offline programming and slicing software can be configured to generate robot trajectory codes for complex parts;
  • It can be equipped with a self-developed coaxial visual positioning function to realize the visualization of the two-dimensional topography of the repair area and molten pool during the repair process.