SMALL CHAMBER TYPE

The ultimate solution for compact, enclosed manual workstations

THE COMPACT MANUAL WORKSTATION:

As an enclosed laser workstation in the laser class 1 or as an open model for even greater flexibility. No matter which model you choose, the lasers will meet all your design, technology and performance requirements.

Design and ergonomics were a key focus of development as these lasers are often part of advanced modern laboratory facilities. The 3-dimensional milled Corian panel with an integrated display and large laser safety window reflects our strict functionality and design standards. In technical terms, this laser is based on series V components, which are the product of over 20 years of experience. All components are developed and manufactured by Vision. This is the only way to guarantee the long-term availability of all spare parts.

With a wide range of optional accessories, this laser can be optimised to suit your specific applications. We have already modified lasers to meet the special demands of specific sectors for a number of applications. For other customized solutions, simply talk to our sales engineers.

MATERIAL APPLICATIONS:

Most tool steels including: Tool Steel, Stainless Steel, Carbon Steel, Titanium, Aluminum, Nickel, Copper, Beryllium, etc.

LWI SMALL CHAMBER TYPE BENEFITS:

  • Stability 100%
  • Ease of Use 95%
  • Versatility 40%

WHICH LASER TYPE IS RIGHT FOR YOU?

These lasers are also known as flash lamp or lamp-pumped lasers, as they utilize a lamp (bulb) as a pumping mechanism and a YAG crystal as the gain medium. Both reside in an optical resonator, , which provides reflection of the light and helps with the process of creating the laser light.
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
Compare Models:
Technical Data LWI V Nd:YAG 60 W
laser safety class 4 as open version, 1 as closed version
beam source Nd:YAG, flashlamp, pulsed
wavelength 1064 nm
max. pulse energy 70 joule
max. peak power 17 kW
max. average power 60 W
energy adjustment mode voltage or PWM mode
voltage 160-500V
pulse width 1-20 ms
pulse frequency 1-20 hz
pulse fill 10 – 100 %
PWM mode 1 – 100 %
focal length 190 mm
beam diameter 200 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, water/air heat-exchanger, temperature controlled fan
cooling option external cooler optional, integrated bypass-controller
electrical supply 1 phases, 230V /50 hz
power consumption 2 kW
Technical Data LWI V Nd:YAG 120 W
laser safety class 4
beam source Nd:YAG, flashlamp, pulsed
wavelength 1064 nm
max. pulse energy 70 joule
max. peak power 17 kW
max. average power 120 W
energy adjustment mode voltage or PWM mode
voltage 160-500V
pulse width 1-20 ms
pulse frequency 1-20 hz
pulse fill 10 – 100 %
PWM mode 1 – 100 %
focal length 190 mm
beam diameter 200 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, water/air heat-exchanger, temperature controlled fan
cooling option external cooler optional, integrated bypass-controller
electrical supply 3 phases, 400V /50 hz
power consumption 4 kW
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
Features:
Suitable for Laboratories

The high-quality, smooth and pore-free surface is not only an element of the device´s design – it also means that it is ideal for laboratory areas and is easy to clean.

Large Backlit Display

The large backlit display provides the user with a direct view of all the important operating parameters. Adjustment limits are visualized. The adjustment of the parameters themselves takes place via the work chamber´s control elements.

High Power LED Cold-Light Illumination

Hot working environments and the resulting moist hands are a thing of the past with this modern illumination. The sharp, white light beam gives you the highest color fidelity when you look through the microscope. Plus: it has a particularly long liefspan of over 100,000 hours.

On-Axis Shielding Gas Supply

A reliable on-axis shielding gas supply enables perfect welding even with highly-sensitive materials, such as titanium, for example. The welded joint is always flooded with shielding gas under 90 degrees. This prevents the sort of shdadow effects and swirling which occurs when a lateral gas supply is used.

Service, Diagnosis and Upgrade

With the integrated selfdiagnostic system, you have the opportunity to detect faults in ongoing operations and to display this as plain text in a message. Even the laser’s own software undergoes constant further development: you can bring your device up to date with a firmware upgrade.

We want to help.

We can help you find the solution that you need. Better yet if you don't see a machine that meets your specific needs we would love to talk with you about creating exactly what it is you need. Give Alliance Laser the chance to be your partner.

Laser Welding Quote Request

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