PRECISE ON-SITE LASER WELDING:
Of course, the system has the features already used in the Vision Workstation, such as PDS (Pulse Distance Synchronisation) and Teach-In. Through the PDS system, a precisely-adjustable overlap of the welding points is guaranteed, even with complex forms and completely different speeds.
The extremely-small processing head can be turned and tilted 360° in all axes. In conjunction with the microscopic tube being able to be turned by 260°, ergonomic work is ensured in almost any situation.
MATERIAL APPLICATIONS:
Most tool steels including: Tool Steel, Stainless Steel, Carbon Steel, Titanium, Aluminum, Nickel, Copper, Beryllium, etc.
- Stability 80%
- Ease of Use 90%
- Versatility 100%
WHICH LASER TYPE IS RIGHT
FOR YOU?
Nd:YAG lasers use a water cooling system to control temp. and have some consumable parts, such as a Yag lamp that has to be changed periodically depending on use.
Fiber lasers utilize semiconductor diodes as the pumping mechanism and a doped fiber optic cable as the gain medium. In a fiber laser, the doped fiber optic serves as the resonator. Fiber lasers are the most reliable laser technology available today for material processing applications, offering the best combination of reliability and marking capability.
The many pros of a fiber laser include:
- Highest beam quality
- Air cooled with high ambient air temperature operating capabilities
- Very efficient with low power consumption
- Longest diode life (Up to 100,000 hours)
- Less Optics Needed
- Easy to integrate and service
Technical Data | LWI V FSS 150 W |
---|---|
laser safety class | 4 |
beam source | FSS FullSolidState Fibrelaser, Diodes |
wavelength | 1070 nm |
max. pulse energy | 15 joule |
max. peak power | 1,5 kW |
max. average power | 150 W |
energy adjustment mode | current |
voltage | 10 – 100 % |
pulse width | 0,1 – 50 ms /cw |
pulse frequency | 1-100 hz |
pulse fill | – |
PWM mode | 1 – 100 % |
focal length | 190 mm |
beam diameter | 100 µm – 2mm, motorized beam-expander |
microscope | Leica binocular, oculars magnification 20x |
illumination of workplace | dual LED cold-light, switchable |
parameter settings memory | 50 settings, individual named |
energy measurement system | integrated |
controller | multi-controller-system, self-diagnostic-system, plaintext for maintenance and status messages |
interface | RS232, CAN-Bus |
shielding gas supply | flexible nozzle, adjustable gas delay |
cooling system | integrated, closed, temperature controlled fan |
cooling option | – |
electrical supply | 1 phase, 90-250V, 50/60 hz |
power consumption | 800 W |
Technical Data | LWI V FSS 300 W |
---|---|
laser safety class | 4 |
beam source | FSS FullSolidState Fibrelaser, Diodes |
wavelength | 1070 nm |
max. pulse energy | 30 joule |
max. peak power | 3 kW |
max. average power | 300 W |
energy adjustment mode | current |
voltage | 10 – 100 % |
pulse width | 0,1 – 50 ms /cw |
pulse frequency | 1-100 hz |
pulse fill | – |
PWM mode | 1 – 100 % |
focal length | 190 mm |
beam diameter | 100 µm – 2mm, motorized beam-expander |
microscope | Leica binocular, oculars magnification 20x |
illumination of workplace | dual LED cold-light, switchable |
parameter settings memory | 50 settings, individual named |
energy measurement system | integrated |
controller | multi-controller-system, self-diagnostic-system, plaintext for maintenance and status messages |
interface | RS232, CAN-Bus |
shielding gas supply | flexible nozzle, adjustable gas delay |
cooling system | integrated, closed, temperature controlled fan |
cooling option | – |
electrical supply | 1 phase, 90-250V, 50/60 hz |
power consumption | 1,2 kW |
Technical Data | LWI V FSS 450 W |
---|---|
laser safety class | 4 |
beam source | FSS FullSolidState Fibrelaser, Diodes |
wavelength | 1070 nm |
max. pulse energy | 45 joule |
max. peak power | 4,5 kW |
max. average power | 450 W |
energy adjustment mode | current |
voltage | 10 – 100 % |
pulse width | 0,1 – 50 ms /cw |
pulse frequency | 1-100 hz |
pulse fill | – |
PWM mode | – |
focal length | 190 mm |
beam diameter | 100 µm – 2mm, motorized beam-expander |
microscope | Leica binocular, oculars magnification 20x |
illumination of workplace | dual LED cold-light, switchable |
parameter settings memory | 50 settings, individual named |
energy measurement system | integrated |
controller | multi-controller-system, self-diagnostic-system, plaintext for maintenance and status messages |
interface | RS232, CAN-Bus |
shielding gas supply | flexible nozzle, adjustable gas delay |
cooling system | integrated, closed, temperature controlled fan |
cooling option | – |
electrical supply | 1 phase, 90-250V, 50/60 hz |
power consumption | 2,5 kW |
Compact Operating Head
Swivelling and Inclinable
Lockable Arm Joint
Fast Pre-Positioning
You can conduct fast prepositioning through the extension of the extension arm in rapid traverse. In addition, this can be freely rotated over the tower axis. At the push of a button an eletromagnetic brake locks the arm. The software corrects the angle offset between the arm position and the axis of the integrated cross table. The operator thus retains the usual orientation.
Precise Movement
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