Steel Structure Laser Cutting Machine
Steel structure laser cutting machine (H-beam laser cutting machine) is a high-efficiency CNC Laser Cutting equipment specially used for cutting and processing various metal steels. It is mainly used in Industrial Equipment Manufacturing to achieve High-Power Laser Cutting, and is particularly suitable for cutting and processing structural profiles such as H-beams, I-beams, angle steels, and channel steels.
Structural Steel Laser Cutter can cut, cut holes, bevel, unlock, engrave, mark, scribing and other processing procedures, which greatly improves processing efficiency and product quality, reduces labor costs, and improves the overall processing intelligence level.
Structural Steel Laser Cutting Machine Type:
Cantilever H steel structure laser cutting machine: adopts 3D 5 axis technology, has precision cutting technology, can effectively control cutting errors, and the processing efficiency can reach 15 times that of manual labor, which is suitable for application scenarios that require high precision and fast cutting.
Gantry H steel structure laser cutting machine: has strong rigidity and load-bearing capacity, suitable for cutting large-format materials, can process H-shaped steel and flat plates at the same time, and is suitable for multi-functional applications.
Cantilever VS Gantry H-beam Laser Cutting Machine
Criteria | Cantilever Type | Gantry Type |
---|---|---|
Suitable Material & Thickness | Ideal for long, varied-thickness materials like H-beams, with extendable cutting length | Best for wide materials (e.g., ≥2.5m width), suitable for various thicknesses |
Automation Level | Dual-station design for time-saving loading/unloading; supports contour detection for efficiency | Continuous operation, supports modular production for large-scale manufacturing |
Space & Layout | Compact structure, suitable for limited factory space | Larger footprint; provides increased stability and load capacity |
Cost & ROI | Lower initial cost; high efficiency and precision | Higher initial investment; multi-functionality provides greater long-term ROI |
Application Scenarios | Ideal for high-precision, fast-cutting needs in industries like automotive and aerospace | Suited for large-format materials in construction and shipbuilding |
Application Scenarios of Profile Laser Cutting Machine
Steel structure prefabricated buildings: H-shaped steel is widely used in steel structure prefabricated buildings, such as industrial plants, high-rise buildings, etc., due to its section modulus, moment of inertia and corresponding strength advantages, to improve the bearing capacity and stability of the overall structure.
Oil drilling platform: In the construction of oil drilling platforms on land or at sea, H-shaped steel is widely used due to its high strength and stability.
Hull manufacturing: H-shaped steel is also an important material in the hull structure, used to improve the structural strength and stability of the hull.
Large supermarkets and stadiums: These buildings usually require large-span steel structures, so H-shaped steel is widely used.
Bridge construction: In bridge construction, H-shaped steel can be used for structural components such as beams and columns to provide the necessary support and bearing capacity.
Communication signal tower: Communication signal tower requires lightweight and high-strength structural materials.
Engineering machinery: In the field of engineering machinery, H-shaped steel is used to manufacture various load-bearing and structural components, such as cranes, excavators, etc.
How much does H Structural Steel Laser Cutting Machine Cost?
Basic models of Heavy-duty Laser Cutter for Steels can start from approximately $17,000 and can go up to $26,000 for plasma cutting options.
Advanced Automated Cutting System, particularly those with higher power outputs (ranging from 6,000W to 20,000W), typically fall within the range of $100,000 to $500,000, depending on their features and automation capabilities
- Laser Power: Higher wattage lasers (e.g., 12kW or 20kW) generally increase the cost due to their ability to cut thicker materials more efficiently.
- Automation Features: Machines equipped with automatic loading/unloading systems or advanced CNC controls will typically be more expensive.
- Cutting Capabilities: Machines that can perform multiple functions (like bevel cutting, punching, and marking) may also come at a premium.
- Brand and Manufacturer: Established brands with a reputation for quality and service may charge more for their machines.
How to Choose Steel Structure Laser Cutting Machine
Cutting accuracy
High cutting accuracy is a major advantage of Metal Structural Laser Cutter. Choose equipment that can achieve an error within ±0.1 mm to meet high-standard processing requirements.
Cutting thickness and power
Choose the appropriate laser power according to the processing requirements. Generally, lasers with a power of 2000W to 20000W can meet the cutting requirements of H-beams of different thicknesses. Higher-power lasers can handle thicker materials and improve overall production capacity.
Automation
Equipment with a high level of automation can reduce manual intervention and improve production efficiency. The fully automated workflow can achieve automatic feeding, cutting and transportation of steel sections, reducing labor costs.
Cutting speed
Cutting speed directly affects production efficiency. Choosing equipment with high cutting speed can significantly improve production capacity, especially in large-scale production. For example, some equipment can achieve processing efficiency up to 15 times that of manual labor.
Material adaptability
Ensure that the steel fabrication laser Ccutting machine can handle a variety of materials, including H-beams of different thicknesses and materials, as well as other metal materials. This flexibility can improve equipment utilization.
After-sales service and technical support
It is very important to choose a manufacturer with good after-sales service and technical support so that problems can be solved in time when the equipment has problems and reduce downtime. It is also necessary to understand the manufacturer’s market reputation and customer feedback.
Cost and return on investment
Although the initial investment of the steel processing laser cutter is high, its low operating cost, high efficiency and high quality in long-term use can bring better return on investment to the enterprise. Therefore, it is key to comprehensively consider the equipment price and long-term benefits.
How Difficult is the Metal Structural Laser Cutter to Operate?
- Automation and intelligence: Many H-type Structural component laser cutting models have automation functions, such as automatic focus, automatic focusing, automatic nesting, etc., which reduces the need for manual intervention. Some equipment also supports docking with the front and back end processes, deceleration and stopping through roller conveyor, no servo precision control and mechanical clamping positioning, automatic visual camera positioning, and robot cutting.
- User-friendly interface: Modern Industrial Steel Laser Cutting Machine is usually equipped with a touch screen and supports mouse operation, making the operation more intuitive and convenient.
- Software support: Many CNC laser cutting machines for steel support multi-industry drawing analysis, such as DXF, STEP, GEN, SPD formats, which makes the transition from design to production smoother.
- Training and tutorials: Many manufacturers provide operation training and online tutorials to help users quickly master the use of the machine.
- Reduced labor demand: Some Structural Steel Laser Cutters are designed to reduce the need for professionals and lower the threshold for operation.
- System automatic matching: Some systems can automatically match workpiece and drawing information, simplifying the operation process.
- Cutting accuracy and efficiency: Precision laser cutting for steel structures can reduce material waste and processing time and improve production efficiency.
- Operation tips and tricks: Through learning and practice, operators can master the skills to optimize cutting speed and quality, such as adjusting laser power, selecting appropriate focal length, optimizing cutting path, etc.
- Safety measures: Fiber laser cutting machines are usually equipped with safety measures, such as emergency stop buttons and protective devices, to ensure the safety of operators.
Conclusion
Selecting the right steel structure laser cutting machine is essential for maximizing productivity and ensuring high-quality outputs in manufacturing processes. By understanding the technology, key features, applications, and operational guidelines outlined in this guide, businesses can make informed decisions that align with their specific needs.