Standard-X LZT-240 | Laser Tube Cutter - STANDARD Direct

Miraco 3d Scanner now under $2000...

Miraco 3d Scanner now under $2000...

STANDARD-X LZT-240 Laser Tube Cutter

Quality + 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*

Laser Cutting Capacity Chart
Laser Cutting Chart
 

1000WCutting parameter

Material

Thickness

Speed (m/min

Air Pressure (MPA

Gas

Cutting focus

Carbon Steel

1

15~18

1

O2

1

2

5.1~6

0.5~0.8

O2

1

3

3.5~4.2

0.25~0.4

O2

1

4

2.3~2.7

0.15~0.2

O2

1

5

1.7~2.1

0.15~0.2

O2

1

6

1.2~1.8

0.10~0.15

O2

1

8

0.9~1.1

0.10~0.15

O2

1

10

0.6~0.72

0.10~0.15

O2

1

Stainless Steel

0,5

>24

1

N2

0,6

1

17~21

>1.1

N2

0,6

2

5.4~7.2

>1.5

N2

0,6

3

2.1~3

>2.0

N2

0,6

4

0.8~1.5

>2.0

N2

0,6

5

0.6~0.9

>2.0

N2

0,6

1500W Cutting parameter

Material

Thickness
(mm)

Speed (m/min)

Air Pressure (MPA)

Gas

Cutting focus

Stainless Steel

1

25

1

N2

0,6

2

7

1,4

0,6

3

4

1,8

0,6

4

2

1,8

0,6

5

1,3

2

0,6

6

0,7

2

0,6

Carbon Steel

1

25

1

O2

1

3

4

0,12

1

6

1,6

0,14

1

8

1,2

0,14

1

10

1

0,16

1

12

0,8

0,18

1

14

0,6

0,2

1

16

0,5

0,05

1

Aluminum

1

16

1,2

 

0,6

2

6

1,4

 

0,6

3

2,5

1,8

N2

0,6

4

1,3

2

0,6

 Copper

2

4

1,6

 

0,6

3

1,5

1,8

 

0,6

Bronze

2

2

1

 

0,6

2000W Cutting parameter

Material

Thickness

Speed (m/min)

Air Pressure (MPA)

Gas

Cutting focus

Stainless Steel

0,5

>30

1

N2

0,6

1

24~27

>1.1

0,6

2

9~11

>1.5

0,6

3

5.1~6

>2.0

0,6

4

3~3.6

>2.0

0,6

5

1.5~2.1

>2.0

0,6

6

0.9~1.2

>2.0

1

8

0.5~0.6

>2.0

1

Carbon Steel

3

4.2~4.8

1

O2

1

5

3~3.3

0.5~0.8

1

6

2.1~2.7

0.25~0.4

1

8

1.2~1.8

0.15~0.2

1

10

1.1~1.5

0.15~0.2

1

12

0.96~1.2

0.10~0.15

1

14

0.9~1.1

0.10~0.15

1

16

0.78~0.9

0.10~0.15

1

20

0.6~72

0.10~0.15

1

3000W Cutting parameter

Material

Thickness

Speed (m/min)

Air Pressure

Gas

Cutting focus
(mm)

Power (%)

Size of nozzle

Carbon Steel

1

10,8

   9 bra

O2

1

25

2.0(Double)

2

6,6

   5 bra

1

35

2.0(Double)

3

4,2

1.4 bra

1

90

1.0(Double)

4

3,6

1.4 bra

1

98

1.0(Double)

6

2,4

1.0 bra

1

98

1.0(Double)

8

1,8

0.8 bra

1

98

2.5(Double)

10

1,1

0.6 bra

1

60

3.0(Double)

12

0,9

0.6 bra

1

80

3.0(Double)

14

0,8

0.6 bra

1

60

3.5(Double)

16

0,72

0.7 bra

1

70

4.0(Double)

18

0,65

0.8 bra

1

80

4.5(Double)

20

0,6

0.8 bra

1

80

4.5(Double)

22

0,6

0.8 bra

1

75

3.5(Double)

Stainless Steel

1

42

1.6 Mpa

N2

0,6

100

2.0(Single)

2

12

1.6 Mpa

0,6

100

2.0(Single)

3

9

2.0 Mpa

0,6

100

2.0(Single)

4

6

2.0 Mpa

0,6

100

2.0(Single)

6

2,1

2.4 Mpa

0,6

100

3.0(Single)

8

1,2

2.4 Mpa

0,6

100

4.0(Single)

10

0,9

2.4 Mpa

0,6

100

4.0(Single)

 Copper

1

21

1.2 Mpa

N2

0,6

100

2.0(Single)

2

12

1.6 Mpa

0,6

100

2.0(Single)

3

6

1.6 Mpa

0,6

100

2.0(Single)

4

3,6

1.8 Mpa

0,6

100

2.0(Single)

5

2,4

1.8 Mpa

0,6

100

3.0(Single)

6

1,5

1.8 Mpa

0,6

100

3.0(Single)

8

0,6

2.0 Mpa

0,6

100

3.0(Single)

Aluminium

1,5

24

1.6 Mpa

N2

0,6

100

2.0(Single)

2,5

9,6

2.0 Mpa

0,6

100

2.0(Single)

3

7,2

2.0 Mpa

0,6

100

2.0(Single)

4

3,6

2.0 Mpa

0,6

100

3.0(Single)

5

2,4

2.0 Mpa

0,6

100

3.0(Single)

6

1,8

2.4 Mpa

0,6

100

3.0(Single)

8

0,9

2.4 Mpa

0,6

100

3.0(Single)

 

 

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
  • Tube dimensions - 240x6000mm = 9.4488x236.2205 inches
  • Material Dimensions
    • X-Axis working area - 240mm = 9.4488 inches
    • Y-Axis working area - 6000mm = 236.2205 inches
  • X/Y-Axis Repeated Position Precision - ±0.02mm = ±0.0008 inches
  • Max. Running Speed - 100m/min = 3937.0079 inches/min
  • Max. Accelerated Speed - 1.2G
  • Transmission System - Dual-Drive, precise rack and pinion
  • Machine Body - Heavy plate welded body, manganese steel beams, high temperature furnace.
  • CNC and Software System - Cypcut
  • Power Requirement - 380V
  • Gas Device - N2, O2
  • Weight - 6000kg = 13227.7365 lbs
    Machine Configurations

    Click the Links to visit the brands website

    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

    How to use a Laser Tube Cutter

    A laser tube cutter is a machine that uses a laser beam to cut through metal tubes.

    To use one, follow these steps:

    1. Choose the appropriate cutting settings on the machine, such as the laser power and cutting speed, based on the material and thickness of the tube.

    2. Position the tube in the machine and secure it in place with clamping devices.

    3. Adjust the laser focus to ensure that the beam is properly aligned with the cutting path.

    4. Start the cutting process and let the machine do its work.

    5. After the cut is complete, remove the tube from the machine and inspect the cut to ensure that it meets your requirements.

    6. Repeat the process as needed.

    It is important to wear eye and ear protection while using a laser tube cutter. And also to follow the instructions of the machine and the safety guidelines provided by the manufacturer.

    *Information shown may differ or change without warning*

    Product Search

    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
    • Tube dimensions - 240x6000mm = 9.4488x236.2205 inches
    • Material Dimensions
      • X-Axis working area - 240mm = 9.4488 inches
      • Y-Axis working area - 6000mm = 236.2205 inches
    • X/Y-Axis Repeated Position Precision - ±0.02mm = ±0.0008 inches
    • Max. Running Speed - 100m/min = 3937.0079 inches/min
    • Max. Accelerated Speed - 1.2G
    • Transmission System - Dual-Drive, precise rack and pinion
    • Machine Body - Heavy plate welded body, manganese steel beams, high temperature furnace.
    • CNC and Software System - Cypcut
    • Power Requirement - 380V
    • Gas Device - N2, O2
    • Weight - 6000kg = 13227.7365 lbs
      Machine Configurations

      Click the Links to visit the brands website

      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 Weeks from Deposit

      How to use a Laser Tube Cutter

      A laser tube cutter is a machine that uses a laser beam to cut through metal tubes.

      To use one, follow these steps:

      1. Choose the appropriate cutting settings on the machine, such as the laser power and cutting speed, based on the material and thickness of the tube.

      2. Position the tube in the machine and secure it in place with clamping devices.

      3. Adjust the laser focus to ensure that the beam is properly aligned with the cutting path.

      4. Start the cutting process and let the machine do its work.

      5. After the cut is complete, remove the tube from the machine and inspect the cut to ensure that it meets your requirements.

      6. Repeat the process as needed.

      It is important to wear eye and ear protection while using a laser tube cutter. And also to follow the instructions of the machine and the safety guidelines provided by the manufacturer.

      *Information shown may differ or change without warning*