Services

Production

Quality

Laser machining

2D tube laser

Laser cutting system with fibre laser for tubes with diameters up to 120 mm. The LT5 is a compact laser cutting machine from the Lasertube family that is designed for the continuous production of tubes with small thicknesses and diameters.

#
  • Processing up to ∅ 120 mm
  • Bar weight up to 13.5 kg/m
  • Loading length 6.5 m
  • Unloading length 3.5 m
  • Fibre laser source 1 kW
  • Cuttable materials: iron, stainless steel, aluminium, copper and brass

Advantages of the fibre laser

Greater efficiency and smaller power consumption

The higher electrical efficiency of fibre laser technology drastically reduces the power consumption of the system and leads not only to savings in your electricity bill, but also to an easier installation process, as the system does not require you to oversize the electricity supply.

Greater performance when cutting thin materials

The higher speed of the fibre laser when nitrogen cutting thin materials leads to more than twice the productivity of the machine compared to a CO2 laser: medium/low-strength mild- and stainless steel are two materials that benefit greatly from the use of a fibre laser.

No maintenance of the source

The fibre laser does not require regular restoration/regeneration of its source and does not require the use of laser gas. The quality of the laser beam is constant over time and is ready to use from the moment you begin production.

New possibilities for materials

In contrast to CO2 technology, the fibre laser is also able to cut copper and brass effortlessly. Even aluminium and galvanised steel pipes, materials that until now had been somewhat problematic, will no longer hold any restrictions.

2D laser cutting and stamping machine

Performance parameters of the combined 2D laser cutting and stamping machine:

#
  • Laser power: 2 kW
  • Working area X x Y: 2,500 x 1,250 mm
  • Maximum sheet metal thickness: 4 mm
  • Maximum stamping force: 165 kN
  • Maximum workpiece weight: 120 kg
nach oben