STANDARD LZ Open Type Fiber Laser Cutters - Precision & Efficiency - STANDARD Machine Tools

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Happy Holidays!, We'll be closed from 20th December to 6th January. Leave a chat or email us sales@stdmt.com

STANDARD LZ Open-Type Fiber Laser Cutter

--- 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

High Precision Open-Type Fiber Laser Cutting Machines

Our range of high-precision open-type fiber laser cutting machines is designed for versatility and efficiency across multiple cutting applications. Built to meet the demanding needs of modern manufacturing, these machines offer superior cutting performance, quality, and reliability. With options for different cutting bed sizes and laser power configurations, you can choose the perfect solution to fit your production needs.

Available Cutting Capacities:

  • 1500 x 3000 mm
  • 1500 x 6000 mm
  • 2000 x 4000 mm
  • 2000 x 6000 mm
  • 2500 x 5000 mm

Laser Source Power Options:

  • 1000W, 2000W, 3000W, 4000W, 6000W, 8000W

These machines are ideal for cutting a variety of materials, including mild steel, stainless steel, aluminum, brass, and copper, providing clean, precise cuts with minimal heat distortion. The fiber laser technology ensures high energy efficiency and low maintenance, maximizing your production output and minimizing downtime.

Safety Notice:
As these are open-type machines, it is critical that all operators wear appropriate Personal Protective Equipment (PPE), including laser safety glasses and protective clothing. Additionally, infrared shielding must be installed in the workshop to protect other personnel from potential laser exposure.

For more information or a Quick-Quote, reach out via chat, email, or phone, and we will help you select the ideal configuration for your specific application needs.

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)

LZ-1500x3000

1500x3000

1 - 8 kW

100

±0.02

0.5 - 30

6000×2200×1700

LZ-1500x6000

1500x6000

1 - 8 kW

100

±0.02

0.5 – 30

9000×2200×1700

LZ-2000x4000

2000x4000

1 - 8 kW

100

±0.02

0.5 - 30

6000×2700×1800

LZ-2000x6000

2000x6000

1 - 8 kW

100

±0.02

0.5 - 30

9000×2700×1800

LZ-2500x5000

2500x5000

1 - 8 kW

100

±0.02

0.5 - 30

8000×3200×1800

 

Machine Configurations

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Features

  • Completely integrated fiber laser cutting solution
  • High motion dynamics and positioning accuracy
  • Powerful and user-friendly PC-based CNC control system (Cypcut)
  • Machines meet contemporary safety and environmental standards
  • Quicker transmission with YYC gear and rack
  • Automatic height control
  • Lower operation costs and more efficient than a CO₂ laser

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.

Warranty
  • 3 Years warranty on machine.
    • Part replacement of failed components not related to wear and tear, incorrect use or accidental damage.
  • 2 Years on the Laser source and related components
Delivery

Product is strictly Build on Order.

Deliver is 6-10 Weeks from Deposit

How to Use an Open-Type CNC Fiber Laser Cutting Machine

An open-type CNC fiber laser cutting machine is a versatile and efficient tool for cutting metal sheets and plates with precision. This guide outlines the essential steps for operating the machine safely and effectively.


Safety Precautions

Before operating the machine, ensure you adhere to the following safety measures:

  1. Personal Protective Equipment (PPE): Always wear laser safety glasses, gloves, and hearing protection.
  2. Work Area Safety: Ensure the area around the machine is clear, well-ventilated, and free of any combustible materials.
  3. Familiarize Yourself with Emergency Procedures: Know the location of the emergency stop button and understand how to use it.


Setup Process

1. Power On the Machine

  • Locate the main power switch and turn it on to initialize the CNC system and laser source.
  • Wait for the machine to go through its start-up sequence, which includes the CNC controller and laser components initializing.

2. Load the Material

  • Place the metal sheet or plate on the cutting bed.
  • Ensure the material is flat and properly aligned according to the X and Y axes of the cutting area.
  • Use clamps or fixtures (if available) to secure the material, preventing movement during cutting.

3. Select Cutting Parameters

  • Access the CNC controller (e.g., CypCut or a similar system) to configure your cutting settings.
    • Select the appropriate material (e.g., stainless steel, aluminum, carbon steel, etc.).
    • Input the material thickness and corresponding laser power (refer to your machine’s cutting chart).
    • Set the cutting speed and assist gas type (e.g., oxygen for steel or nitrogen for non-ferrous metals).

4. Focus the Laser and Set the Cutting Head

  • Auto-Focus: If your machine has an auto-focus feature, activate it to adjust the laser focus based on material thickness.
  • Manual Focus: For manual focus systems, adjust the focus height of the laser head using the machine’s controls, ensuring the focal point is correctly set to the material’s surface.

5. Load the Cutting Program

  • Upload your cutting program to the CNC system from a USB drive, or access it from the machine's internal memory.
  • Alternatively, use the CAD/CAM software to create a custom cutting design and export it to the machine's CNC controller.
  • Verify the cutting path and material dimensions through the simulation mode on the CNC interface.

6. Perform a Test Cut

  • To avoid errors, perform a test cut on a scrap or small piece of material similar to what you’ll be working with.
  • Check the test cut for precision, quality, and accuracy.
  • Adjust the cutting speed, power, or focus if necessary.


Start the Cutting Process

1. Begin the Cutting Program

  • Once the material is set, and the cutting parameters are verified, press the Start button on the CNC control panel to begin the cutting process.
  • Monitor the cutting process through the CNC interface and ensure the machine operates smoothly.

2. Adjust Assist Gas (If Necessary)

  • Depending on the material and cutting operation, monitor the assist gas (such as oxygen, nitrogen, or compressed air).
  • Ensure the pressure is appropriate for the material being cut, as this directly affects cut quality and the removal of molten material.

3. Monitor the Cutting Process

  • While the cutting process is active, watch the cutting head and material for signs of misalignment or uneven cutting.
  • Use the CNC controller to adjust the feed rate or pause the process if needed.
  • Regularly check the cut’s progress, especially for long or intricate cutting jobs.

4. Handle Pauses and Restarts

  • If you need to pause the cutting, use the Pause button on the control panel. Once the issue is resolved or adjustments are made, you can resume the cutting process without losing accuracy.
  • In the case of errors or material shifting, stop the machine, fix the issue, and restart the process from the desired position using the CNC controller.


Post-Cutting Steps

1. Unload the Finished Material

  • Once cutting is completed, carefully remove the metal sheet or plate from the cutting bed.
  • Inspect the cut edges for smoothness, accuracy, and precision, ensuring they meet your specifications.

2. Clean the Laser Head and Cutting Area

  • After completing the cutting, inspect and clean the laser head, particularly the nozzle, to remove any buildup of metal slag or residue.
  • Clean the cutting bed to remove any leftover material or debris from the cutting process to ensure a clean workspace for the next operation.

3. Power Down the Machine

  • Once all tasks are complete and the machine is clean, safely power down the CNC system and the laser.
  • Disconnect the gas supply (if necessary) and store the machine in a safe state, ready for future operations.


Maintenance and Troubleshooting

1. Regular Maintenance

  • Daily Cleaning: Clean the laser head and cutting bed after each use to ensure consistent performance.
  • Inspect Optics: Regularly check and clean the laser optics, including the focusing lens and mirrors, to avoid any buildup that could affect laser precision.
  • Lubricate Moving Parts: Ensure all mechanical components such as rails, belts, and drive systems are lubricated and functioning smoothly.
  • Check Consumables: Replace worn-out nozzles, lenses, or filters as needed to maintain cutting efficiency and quality.

2. Common Troubleshooting

  • Inconsistent Cutting Quality: Check the laser focus, cutting speed, or gas pressure and make necessary adjustments.
  • Material Warping or Burning: Reduce laser power or increase cutting speed; ensure proper cooling or gas flow during the cut.
  • Alignment Issues: Inspect the machine’s alignment and recalibrate the cutting head if cuts are misaligned or skewed.


Emergency Procedures

1. Emergency Stop

  • Familiarize yourself with the location of the Emergency Stop button.
  • In the event of an emergency, press the button to immediately halt all machine operations.

2. Restarting After an Emergency Stop

  • Once the issue has been resolved, reset the emergency stop, restart the machine, and resume cutting from where it left off, using the CNC controller to guide you.
*Information shown may differ or change without warning*

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