Nuestras máquinas de corte por láser de fibra están diseñadas para ofrecer velocidad, precisión y fiabilidad. Con funciones avanzadas como control CNC, enfoque automático y niveles de potencia personalizables, nuestras máquinas aumentan la productividad y reducen el tiempo de inactividad.
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Superstar is a leading supplier of full enclosed metal tube plate laser cutting machines, plate and tube integrated fiber laser cutting machinesy full cover fiber laser metals cutting machines. Our machines are designed to provide exceptional versatility, allowing for precision cutting of both metal plates and tubes in one integrated system. With full-cover safety enclosures, our machines ensure a secure working environment while maintaining high-speed, high-power cutting capabilities for materials like stainless steel, carbon steel, and aluminum. Choose superstar for advanced, efficient laser cutting solutions that elevate productivity and precision in metal processing industries.

We are excited to introduce three new cutting-edge models for your metal processing needs: The multifunctional 3000w plate and tube fiber laser cutting machine, the fiber laser cutting machine for metal plates and tubes, and the cx-3015/4020/6020 plate and tube integrated fiber laser cutting machine. Each model offers powerful, precise cutting capabilities for both plates and tubes, providing the versatility and efficiency required in modern fabrication. Click to explore detailed specifications and see how these machines can enhance your production line.

máquina de corte por láser

Máquina de corte por láser integrada de chapa y tubo

¿Qué es una máquina integrada de placas y tubos? Una máquina integrada de placas y tubos es un tipo de intercambiador de calor que combina elementos de placas y tubos para mejorar la eficacia de la transferencia de calor. Este diseño incorpora placas (a menudo planas, que proporcionan superficie para el intercambio de calor) y tubos (a menudo redondos o con aletas, que permiten el flujo de fluidos). La máquina aprovecha [...]

máquina de corte por láser de fibra

Multifuncional 3000w placa y tubo de fibra de corte por láser máquina

La máquina de corte láser de fibra integrada para placas y tubos es un equipo de corte láser de alto rendimiento, que se utiliza especialmente en la industria de procesamiento de tubos y láminas de metal. Puede cortar placas y tubos de varias formas. Tiene las ventajas de alta configuración, alta eficiencia de corte, bajo costo de operación y rendimiento estable.

 

máquina de corte por láser de fibra

Máquina de corte láser de fibra óptica para placas y tubos de metal

La máquina de corte por láser de fibra de doble uso para tubos y chapas puede utilizarse de dos formas, ahorrando costes. Una máquina tiene múltiples usos, puede cortar tanto chapas como tubos metálicos. Ahorra más de 50% de espacio, trayendo una mejor eficiencia de producción; usando programación computarizada, alta utilización de material, ahorrando costos de procesamiento y costos de producción, y ahorrando mucha mano de obra.

cortadora láser de tubos y placas

Máquina de corte láser de fibra integrada para placas y tubos CX-3015/4020/6020

1500W–6000W

What is the maximum cutting thickness for plates and tubes with this machine?

The maximum cutting thickness typically ranges from 6 mm to 25 mm for plates, depending on the material, while tubes can be cut up to 10 mm to 20 mm thick, depending on the machine's power and configuration.

What types of materials can the integrated fiber laser cutting machine handle?

En plate and tube integrated fiber laser cutting machine is highly versatile and can efficiently cut a wide range of materials, making it suitable for various applications in different industries. This includes:
Acero inoxidable:
Known for its corrosion resistance and strength, stainless steel is commonly used in the food, medical, and construction industries.
Acero al carbono:
Widely used in structural applications, carbon steel is favored for its high strength and durability, making it ideal for construction and manufacturing. Aluminio: Lightweight and resistant to corrosion, aluminum is used in the automotive and aerospace industries. Fiber lasers offer precision cuts that maintain the integrity of the material.
Brass:
This alloy of copper and zinc is often used in electrical components and decorative items. The fiber laser's efficiency ensures clean cuts without damaging the material.
Copper:
With excellent conductivity, copper is essential in electrical applications. Fiber lasers can handle copper cutting with high precision and minimal dross.
Titanio:
Known for its strength-to-weight ratio and resistance to extreme temperatures, titanium is critical in aerospace and medical applications. The machine can cut titanium efficiently while maintaining high quality.
Non-Metallic Materials:
Certain models may also cut non-metallic materials such as plastics, wood, and composites, making them suitable for signage, packaging, and custom decorative pieces. This material versatility allows businesses to use one machine for multiple projects, enhancing productivity and reducing equipment costs.

How does the machine ensure precise cutting for both plates and tubes?

The machine employs several advanced technologies and features to guarantee high precision cutting for both plates and tubes:
1.Advanced Motion Control Systems:
These systems allow for precise movement and positioning of the cutting head, ensuring that the laser follows the desired path accurately.
2.High-Quality Laser Optics:
The optics are designed to focus the laser beam tightly, allowing for fine cuts with minimal heat-affected zones, which is crucial for maintaining material integrity.
3.Precise Cutting Head Adjustments:
The cutting head can be adjusted dynamically during operation to maintain optimal focus and distance from the material surface, enhancing cutting quality.
4.Automatic Height Adjustment:
Many models come equipped with sensors that automatically adjust the height of the cutting head based on the material thickness, ensuring consistent cutting quality.
5.Supervisión en tiempo real:
Some machines feature real-time monitoring systems that track cutting parameters and provide feedback to operators, allowing for immediate adjustments if necessary. This helps prevent errors and improves overall accuracy. These technologies collectively ensure that the machine maintains tight tolerances and delivers high-quality cuts across various materials and thicknesses.

What is the maximum cutting speed achievable with this machine?

The maximum cutting speed of plate and tube integrated fiber laser cutting machine can vary significantly based on the model, laser power, and material being cut. Generally, the speed ranges from:
30 to 120 Meters Per Minute:
For thinner materials (up to 5 mm), higher speeds can be achieved, often exceeding 100 meters per minute. For thicker materials (greater than 10 mm), the cutting speed typically decreases to maintain precision and quality.
Material Thickness and Type:
The cutting speed is also influenced by the material type; for instance, cutting stainless steel may be slower than cutting aluminum due to differences in thermal conductivity and melting points. Manufacturers often provide specific speed guidelines for various materials and thicknesses to help users optimize their cutting processes. Achieving the right balance between speed and cutting quality is crucial for efficient production, making this flexibility an essential feature of integrated fiber laser cutting machines.

What power options are available for the fiber laser source?

Fiber laser cutting machines are available in a range of power options to meet diverse cutting needs, typically ranging from:
1 kW to 12 kW or More:
Lower power options (1 kW to 3 kW) are suitable for thinner materials, such as sheet metal or light gauge steel. Higher power lasers (6 kW and above) can cut through thicker materials, improving efficiency and speed in industrial applications.
Customization Options:
Some manufacturers offer customizable power configurations, allowing users to select the power level that best suits their production requirements. This flexibility ensures that users can adapt their machines to various applications, whether cutting delicate components or heavy industrial parts. Choosing the right power option is crucial for optimizing cutting performance, enhancing production efficiency, and ensuring high-quality results.

How does the integrated design impact the machine's overall footprint and space requirements?

The integrated design of fiber laser cutting machines offers several advantages in terms of space efficiency:
1.Compact Footprint:
By combining the capabilities for cutting both plates and tubes into one machine, the integrated design reduces the overall floor space required. This is particularly beneficial for facilities with limited space or those looking to optimize their production layout.
2.Simplified Workflow:
Having a single machine for both functions streamlines the workflow, reducing the need for multiple setups and transitions between different machines. This leads to increased operational efficiency and less downtime.
3.Rentabilidad:
The integrated design not only saves space but also reduces equipment costs by eliminating the need for separate machines, lowering maintenance expenses, and simplifying operator training.
4.Enhanced Flexibility:
Users can switch between cutting tasks without moving to a different machine, allowing for greater flexibility in production and quicker response times to changing project requirements.