STANDARD LZT CNC Tube Cutting Laser - Precision Tube Cutting Solutions - STANDARD Machine Tools

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Miraco 3d Scanner now under $1500...

STANDARD LZT Tube Laser Cutter (Ø220~500mm x 6000mm capacity)

--- 3 Years Warranty ---

Machines are built on order,delivery is 45~75days, Shipped Worldwide - Prices include freight to your nearest sea port

*Excludes Local Taxes*

Description

A laser tube cutter is a machine used for cutting tubes and pipes of various materials such as metal, plastic, and wood using a high-powered laser beam. The laser beam is generated from a laser source and focused through a lens to a small point, creating a high-intensity beam that can cut through the material.

The tube or pipe is loaded onto the machine's bed, which has a series of rollers that support and rotate the tube during cutting. The machine can be programmed to cut the tube at various angles and shapes, allowing for precise cuts and complex designs.

The laser tube cutter can be controlled using a computer and specialized software, which allows for the creation of custom designs and precise cutting instructions. The software also helps to optimize the cutting process, reducing waste and increasing efficiency.

One of the advantages of using a laser tube cutter is that it produces a clean and precise cut, without the need for additional finishing. It can also cut through thicker materials than traditional cutting methods, making it ideal for industrial applications.

Overall, a laser tube cutter is a versatile and efficient machine for cutting tubes and pipes of various materials, offering precise cuts and complex designs with minimal waste.

Warranty
   - 3-Years on Machine
    - 2-Years on the Laser

Specifications

Model

Cutting Capacity (mm)

Laser Power (kW)

Max Cutting Speed (m/min)

Positioning Accuracy (mm)

Max Sheet Thickness (mm)

Dimensions (L×W×H) (mm)

LZT-220x6000

Ø220x6000

1 - 12 kW

120

±0.02

0.5 - 40

9000×1500×2200

LZE-350x6000

Ø350x6000

1 - 12 kW

120

±0.02

0.5 - 40

9500×1500×2200

LZE-500x6000

500x6000

1 - 12 kW

120

±0.02

0.5 - 40

10000×1500×2200

 

    Machine Configuration

    Our fiber laser cutters are built with globally recognized, high-quality components, including:

    CypCut Control Information

    CypCut is a powerful software designed for laser cutting machines with fiber lasers for cutting through both sheet and tube metals like stainless steel, aluminum, carbon steel, copper, gold, silver etc.

    The system is an easy to use cutting control, integrated CAD, CAM and Nesting software. Everything you need to get started.

    The Best way to learn CypCut is to use it, Install it on your PC and use the below links to get started.

    Delivery

    Delivery is 8-12 Weeksfrom Deposit

    Cutting Chart

    Here's a cutting chart for fiber lasers with various watt capacities, providing relevant cutting information for steel, copper, and aluminum:

    Laser Power (W)

    Material

    Max Thickness (mm)

    Cutting Speed (m/min)

    Recommended Gas

    500 Watts

    Steel

    6

    2 - 3

    Oxygen

    Copper

    3

    1 - 2

    Nitrogen

    Aluminum

    4

    3 - 4

    Nitrogen

    1000 Watts

    Steel

    10

    3 - 5

    Oxygen

    Copper

    5

    2 - 3

    Nitrogen

    Aluminum

    6

    4 - 6

    Nitrogen

    1500 Watts

    Steel

    12

    4 - 7

    Oxygen

    Copper

    8

    3 - 4

    Nitrogen

    Aluminum

    10

    5 - 8

    Nitrogen

    2000 Watts

    Steel

    15

    5 - 10

    Oxygen

    Copper

    10

    4 - 6

    Nitrogen

    Aluminum

    12

    7 - 10

    Nitrogen

    3000 Watts

    Steel

    20

    8 - 12

    Oxygen

    Copper

    12

    5 - 8

    Nitrogen

    Aluminum

    15

    10 - 15

    Nitrogen

    4000 Watts

    Steel

    25

    10 - 15

    Oxygen

    Copper

    15

    6 - 10

    Nitrogen

    Aluminum

    20

    15 - 20

    Nitrogen

    5000 Watts

    Steel

    30

    12 - 20

    Oxygen

    Copper

    20

    8 - 12

    Nitrogen

    Aluminum

    25

    20 - 25

    Nitrogen

    6000 Watts

    Steel

    35

    15 - 25

    Oxygen

    Copper

    25

    10 - 15

    Nitrogen

    Aluminum

    30

    25 - 30

    Nitrogen

    8000 Watts

    Steel

    40

    20 - 30

    Oxygen

    Copper

    30

    15 - 20

    Nitrogen

    Aluminum

    35

    30 - 35

    Nitrogen

    12000 Watts

    Steel

    50

    25 - 40

    Oxygen

    Copper

    40

    20 - 30

    Nitrogen

    Aluminum

    45

    35 - 45

    Nitrogen

     



    How to Use a CNC Tube Cutting Laser

    A CNC tube cutting laser is a highly precise and efficient tool for cutting metal tubes and pipes of various shapes and sizes. This guide will walk you through the essential steps for safely and effectively operating the machine.

    Safety Precautions

    Before operating the CNC tube cutting laser, follow these safety guidelines:

    1. Wear Personal Protective Equipment (PPE): Always wear laser safety glasses, gloves, and hearing protection.
    2. Ensure Proper Ventilation: Make sure the cutting area is well-ventilated to prevent the buildup of fumes and gases.
    3. Inspect the Machine: Check the machine for any damage or malfunction before starting.
    4. Clear the Work Area: Ensure that no unauthorized personnel are near the machine while it is in operation.

    Setup Process

    1. Power On the Machine

    • Locate the machine’s main power switch and turn it on.
    • Wait for the system to initialize, and ensure the CNC controller and laser power supply are ready.

    2. Load the Tube or Pipe

    • Position the Material: Load the tube or pipe onto the machine’s chuck or clamping system.
    • Secure the Tube: Use the clamps or chuck to ensure the material is firmly held in place. Adjust the support rollers to stabilize the tube during cutting.
    • Ensure that the tube is aligned with the laser head according to the machine's axis.

    3. Set Cutting Parameters

    • Access the CNC control system (e.g., CypCut, TubePro, or similar) via the control panel.
    • Select the appropriate cutting parameters for the material you are working with, such as:
      • Material Type: Steel, aluminum, copper, etc.
      • Tube Dimensions: Diameter and wall thickness.
      • Laser Power: Set according to material thickness (refer to your machine’s cutting chart).
      • Cutting Speed: Adjust based on material and power settings.

    4. Upload or Create the Cutting Program

    • Program Upload: If you have a pre-made program, upload it using a USB drive or through your network connection.
    • Design Program: For custom cuts, create the design using CAD/CAM software. Generate the cutting path and export the file to the CNC control system.
    • Verify the program using the simulation mode if available, ensuring the cutting path and tube orientation are correct.

    5. Focus the Laser and Set the Cutting Head

    • Laser Focusing: Ensure the laser head is correctly focused on the material by adjusting the focus height according to the tube's thickness.
    • Auto-Focus Feature: If your machine has an auto-focus function, enable it to automatically adjust the focus distance.
    • Nozzle Alignment: Ensure that the nozzle is aligned correctly for uniform cutting along the entire length of the tube.

    6. Perform a Test Cut

    • Before beginning the full cut, conduct a test cut on a sample piece of tube or an off-cut of the same material.
    • Inspect the test cut for precision, clean edges, and correct tolerances. Make adjustments to laser power, speed, or focus as needed.

    Start the Cutting Process

    1. Start the CNC Program

    • After verifying all settings, load the material and program for cutting.
    • Press the Start button on the CNC control panel to begin the cutting process.
    • Monitor the operation on the machine's display to ensure everything is proceeding as expected.

    2. Tube Rotation and Cutting

    • As the laser cuts, the chuck will rotate the tube for cutting around its circumference while the laser head moves along the cutting path.
    • The support rollers will move with the tube to maintain stability and precision.
    • Monitor the cutting process for smooth operation and consistent cutting performance.

    3. Pause or Stop the Program

    • If you need to stop or pause the cutting process, use the Pause or Stop button on the CNC panel.
    • You can resume the program after inspecting the cut, or restart the process if adjustments are needed.

    Post-Operation Steps

    1. Unload the Tube

    • Once the cutting is complete, release the clamps or chuck and carefully remove the finished tube from the machine.
    • Inspect the tube to ensure the cuts are clean, precise, and meet the required specifications.

    2. Clean the Laser Head and Nozzle

    • After completing the cutting process, clean the laser head and nozzle to remove any slag or residue that may affect future cuts.
    • Regular cleaning of the laser optics is crucial for maintaining consistent performance and cut quality.

    3. Turn Off the Machine

    • After all cuts are completed and the machine is cleaned, power down the CNC control system and the laser.
    • Ensure that the work area is clean and that all components are in good working order for the next operation.

    Maintenance

    Regular maintenance is essential to ensure the CNC tube cutting laser operates efficiently:

    • Daily Cleaning: Clean the laser head, nozzle, and machine components after each use to prevent buildup.
    • Check Laser Alignment: Regularly inspect and adjust the laser alignment for accurate cutting performance.
    • Inspect Consumables: Replace consumables such as lenses, nozzles, and filters as needed.
    • Lubrication: Ensure all moving parts, including the chuck and support rollers, are properly lubricated.
    • Software Updates: Keep the CNC software up to date for optimal performance and compatibility with new programs.

    Emergency Procedures

    1. Emergency Stop

    • In the event of an emergency, press the Emergency Stop button to immediately halt all machine operations.
    • Ensure all personnel are safe and identify the cause of the emergency before resuming operation.

    2. Troubleshooting

    • If you experience issues with cutting accuracy, laser power, or movement, consult the machine’s manual or contact technical support.
    • Perform regular diagnostic checks to detect issues early and maintain consistent performance.
    *Information shown may differ or change without warning*

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