menu
Index All Products Sheet Fiber Laser Automotive Laserbot 3D LeMans

Automotive Laserbot 3D LeMans

back

Laserbot Series

It is a kind of laser processing equipment specially developed for automobile hot forming parts. It mainly solves the problem of cutting holes and trimming of hot forming parts. It is characterized by high precision, fast speed and good dynamic performance.

Product Introduction


The 3D 5-Axis laser machine series transmits the high-density and high-energy laser beam to the three-dimensional processing head through the optical fiber. The non-contact method is used to process the workpiece accurately and rapidly. It is flexible and easy to operate, which can perfectly solve the requirements of hole cutting and trimming on the workpiece surface.

The products are widely used in automotive, mould, household appliances, engineering machinery, ships, hardware, medical equipment, fitness equipment and other fields to meet the requirements of various metal workpiece surface cutting and trimming.

  • Compared with robot 3d cutting, it has fast speed and high precision;
  • Compared with the traditional CARBON dioxide laser cutting machine, the use cost is low, the operation is simple, the maintenance is convenient.

 

Technical Advantages 

  • High Efficiency

Maximum synthesis positioning speed is 170m/min, maximum  synthesis acceleration is 1.7g, and rotation  table 2.5s  can complete a single displacement. 

  • Stability

The gantry double drive structure is adopted, which has good stability and can realize 24-hour continuous stable production.

  • Security

Equipped with a fully sealed laser protection room, the light curtain ensures the safety of personnel in the workbench area.                                                                                                                               

  • Cost Efficiency 

Cost performance is higher than other equipments, with shorter delivery time, less cost input, and lower maintenance cost.

  • Convenience 

Large HMI interactive interface, convenient operation, rich information, including process database, graphic display, automatic fixture control, rapid program editing and modification and other functions.





TECHNICAL PARAMETERS 

Project

Technical Parameters

Equipment model

LASERBOT 3015

Stroke of each shaft

X-Axis

3000mm

Y-Axis

1500mm

Z-Axis

680mm

A-Axis

±135°

C-Axis

土n*360°

U-Axis

±12.5mm

Technical parameters of rotary table

Rotation diameter

4000mm

Side max. load

400kg

Min shifting time

≤2.5s

Accuracy

X/Y/Z Axis Position Accuracy

±0.03mm

X/Y/Z Axis Repeat Position Accuracy

±0.02mm

A/C Axis Position Accuracy

0.015°

A/C Axis Repeat Position Accuracy

0.005°

Speed

X/Y/Z Axis Max Positioning Speed

100m/min

A/C Axis Max Positioning Speed

720°/s

X/Y/Z Axis Max Acceleration

1.0G

A/C Axis Max Acceleration

5400°/s2

Power

 

Phase No.

3

Rated Voltage

380V

Frequency

50Hz

Protection Level

IP54

Weight & Size

 

Net Weight

-16000Kg

Space Size(Length×Width×Height)

≈7800mm(L)x7600mm ( W )x3900mm ( H )

photo
1 / 8

Please accept the cookies we use. These cookies allow you to seamlessly browse our website, help us analyze traffic, improve and personalize content and advertising.  Learn more

Below you will find the categories of cookies used on our website that you can enable or disable. Functional cookies cannot be disabled because they are necessary for trouble-free web browsing. Your cookie settings can be changed in the future using the icon in the footer of the website.

Functional cookies  - These cookies are necessary for the proper functioning of our website. Thanks to them, we can, for example, save your cookie settings and allow you to change them in the future.

Analytical cookies  — These cookies help us analyze site traffic and track site traffic by collecting anonymous information. Thanks to this data, we can improve our site more efficiently.

Marketing cookies  - These cookies help us personalize your advertising, ie.that we will be able to remind you of relevant advertising in the future.