The open designed for easy access to the working area and movement of marking objects. Sturdy & rugged designed M.S. structure for years of operation. Auto head adjustment for positioning samples. Standard Joystick for easy operation.
The Open LASER Marker is also equipped with optional rotary axis device which facilitates LASER Markings on curved surfaces such as the inner or the outer face of rings, bangles and bracelets.
The "OPEN" Laser Marker is able to meet the highest standards of quality set by the most renowned producers of highend jewellery. It is perfect for engraving all types of precious and semi-precious metals, steel, titanium and many other materials, metallic and non.
Technology Based on Ytterbium Fiber Laser Which is highly reliable laser source.
Marking Able to mark all metal and some nonmetal materials. marking minimum lines width of 0.03 mm, minimum height of 0.3 mm for english characters and depth of up to 1mm*
Dependability Sturdy frame structure for lowest vibration and trouble free operation makes it ideal for continues operation like Hallmarking Centers & Jewellery Factories*.
Convenience Latest Air Cool Technology makes this machine work on a low power consumption of below 800W* thus makes it most energy savings.
Compact Ergonomically designed & can easily connect with Laptop (Optional), make this machine very compact & can be placed on workstation, taking up a small working space convenient to use for small factories & showrooms.
Ease Support for auto-coding, serial number, batch number, date bar code and two dimensional codes.
Compatibility WINDOWS based marking software, able to read CORELDRAW, AUTOCAD, PHOTOSHOP and other commonly used graphic files, such as AI, PLT, DXF, BMP, JPEG.
Flexibility Optional Motorised Rotary Marking Device for accurate & continuous 360º marking inside or outside bangles& Rings.
Low Maintenance Complete enclosed laser module design with the optical fiber transmission pump light source & air cooling systems, which offers better protection for the laser devices hence reducing the failure rate.
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