Laser Cutting Machine

You Save:

Inclusive of all taxes

  • Product not available

Please select seller to proceed:

Send message to seller
Send Inquiry


  1. The bed adopts 12 mm super-thick monolithic steel plate laser blanking.The groove welding method is used to make the plates reach equal strength butt Then it undergoes stress annealing and natural aging treatment to eliminate internal stress and maintain the extremely high stability and cutting accuracy of the bed.
  2. The whole beam is processed by T6 heat treatment process to make the beam obtain the highest strength. Solution treatment improves the strength and plasticity of the beam, optimizes and reduces its weight, and speeds up the movement.
  3. The auto-focusing optical fiber cutting head has a built-in motor drive unit. The focus lens is driven by a linear mechanism to automatically change the position within the specified range. The continuous focus can be set by the program to complete the rapid perforation of thick plates and automatically cut plates of different thicknesses and materials.

Country Of Origin : India

  • Additional information

    Advance Information*

    Introduction

    Laser cutting technology has revolutionized the manufacturing and fabrication industries by providing unmatched precision, speed, and efficiency in cutting various materials. Utilizing state-of-the-art laser cutting machines, engineers and craftsmen can now achieve intricate designs, cleaner cuts, and faster production times. One such exemplary product in this realm is the advanced laser cutting machine, meticulously designed to deliver superior performance, high precision, and durability.

    Core Structure and Features

    Super-Thick Monolithic Steel Plate Bed

    • Material Composition: The bed of the laser cutting machine is fabricated from a 12 mm super-thick monolithic steel plate, ensuring unparalleled stability and robustness.

    • Laser Blanking: Utilizing laser blanking for the bed, this method ensures enhanced precision and quality in the cutting process.

    • Groove Welding Method: The plates are joined using groove welding, ensuring equal strength butt joints that stand up to intensive use.

    • Stress Annealing and Natural Aging: Post-welding, the bed undergoes stress annealing and natural aging treatments to eliminate internal stress. This process is crucial to maintaining long-term stability and cutting accuracy.

    Beam Structure and Dynamics

    T6 Heat Treatment Process

    • Entire Beam Processing: The beam of the laser cutting machine undergoes a T6 heat treatment process, which is a specific type of heat treatment that significantly enhances the properties of the material.

    • Strength and Plasticity Enhancement: The beam's strength and plasticity are optimized via a solution treatment process, which enhances its resilience against operational stresses.

    • Weight Optimization: Through this meticulous process, the weight of the beam is reduced, facilitating quicker and more efficient movement during the cutting cycles.

    Cutting Head and Optical System

    Auto-Focusing Optical Fiber Cutting Head

    • Built-In Motor Drive Unit: This cutting head is equipped with an internal motor drive unit designed to automate the focusing mechanism.

    • Linear Mechanism for Focus Adjustment: The focus lens is driven by a linear mechanism, which allows for precise and automatic adjustments within a specified range.

    • Program-Controlled Continuous Focus: This feature enables the continuous focus to be set by software, significantly improving the efficiency and accuracy of cutting through various materials and thicknesses.

    • Rapid Perforation Capability: The system is capable of quickly perforating thick plates and automatically adjusting to cut different materials, reducing downtime and enhancing productivity.

    Technical Specifications

    Cutting Capabilities

    • Materials: The machine is capable of cutting a wide range of materials, including metals, plastics, composites, and more.

    • Thickness Range: The auto-focusing feature ensures optimal performance across varying thicknesses, from thin sheets to thick plates.

    Performance Metrics

    • Cutting Speed: Optimized for high-speed operations, ensuring rapid throughput in manufacturing processes.

    • Cutting Precision: High precision cutting with minimal thermal distortion, providing clean and accurate edges.

    • Beam Dynamics: Lightweight and strong beam structure for enhanced movement speed and precision.

    Advantages and Benefits

    Operational Efficiency

    • Minimized Downtime: Automatic adjustments and rapid perforation capabilities reduce setup times and operational delays.

    • Consistent Performance: Advanced treatment processes ensure long-lasting stability and precision, even under continuous use.

    Flexibility and Adaptability

    • Versatile Material Compatibility: Capable of handling a wide array of materials, making it suitable for diverse industrial applications.

    • Programmable Operations: Integration with advanced software allows for programmable cutting routines, enhancing customization and adaptability.

    Safety and Environmental Considerations

    • Reduced Heat-Affected Zone: Precision cutting reduces the heat-affected zone, minimizing material distortion and preserving structural integrity.

    • Energy Efficiency: Designed to maximize cutting efficiency while minimizing energy consumption.

    Application Areas

    Laser cutting machines are versatile tools that find applications in numerous industries, including but not limited to:

    • Automotive Manufacturing: High precision and rapid cutting capabilities are essential for producing complex automotive components.

    • Aerospace: The need for lightweight and strong materials is met with precise cuts that maintain the integrity of aerospace components.

    • Metal Fabrication: Custom metal parts production, including intricate designs, is streamlined with laser cutting technology.

    • Electronics: Precision cutting is essential in producing components for various electronic devices.

    Conclusion

    With a blend of advanced technology, superior materials, and precision engineering, the laser cutting machine stands out as a premier choice for manufacturers and fabricators seeking excellence in their cutting operations. Whether your needs are in automotive, aerospace, metal fabrication, or electronics, this machine offers the best-in-class performance, unrivaled precision, and operational reliability. Its innovative features and robust construction ensure that it meets the highest standards of quality and efficiency, empowering your business to achieve exceptional results.


    *Disclaimer: This additional description has been automatically generated and has not been audited or verified for accuracy. It is recommended to verify product details independently before making any purchasing decisions.
  • Reviews