The outstanding properties of the series mean that you can use up to two scanner optics per laser head. You can therefore mark at double the speed or, alternatively, from two sides. The dual-head systems set the benchmark when it comes to ultra-fast marking. You can choose whether both scanners should mark the same or different content.
The TruMark Series 6000 consists of three specialist lasers that have one thing in common: High power and outstanding beam quality. The marking lasers are available in various wavelengths – ideal for a wide range of materials. This makes the lasers truly high-performance tools. Metals, plastics, and ceramics can be processed with extremely abrasion-resistant and durable marking. Due to the high peak pulse power and high pulse-to-pulse stability, the TruMark Series 6000 marking lasers provide short processing times and outstanding marking precision. They are also extremely temperature-stable and have internal, software-controlled defocusing. At the same time, the lasers are easy to integrate and are equipped with a plug-in supply cable.
High average power and pulse energy mean that you can work even more productively.
Outstanding marking results – whether for metal, ceramics, or highly reflective material
Plug & produce means that your laser is ready to use in an even shorter time.
Various wavelengths and high peak pulse power for a wide range of materials
Greater safety due to the separation of optical and electrical components and Remote Services
Enables the focal position to be moved quickly using variable beam expansion
Local heat input is used to discolor the workpiece surface. The annealing color changes depending on the material and the energy input. The surface stays smooth, which means that dirt cannot be deposited.
During engraving, the laser beam removes part of the base material, thus creating a depression. This may have steep or beveled edges.
If the material and laser wavelength are optimally matched, the dye molecules are deliberately discolored or faded. The surface remains smooth. In addition to metallic materials, organic substances such as wood or leather can also be processed with the TRUMPF marking lasers.
The laser can be used to structure surfaces for a specific function or to clean them. Rust, oil, or phosphate layers may be removed in preparation for subsequent processes.
The laser can be used to structure surfaces for a specific function. If the surface is structured with tiny melt elevations, significantly higher adhesion effects can be achieved with the same material properties. If interlocking components are structured after the addition of micro-depressions, the running characteristics improve significantly with the same quantity of lubricant.
Ablation partially removes thin top layers of multi-layer plastics which are applied to the basic material and have very different colors. This process can be used for the day and night design, for example, which is used in the automotive and other industries.
During foaming, the laser heats the plastic to cause a short melting process. During the subsequent cooling process, small gas bubbles become trapped and diffuse the light that falls on them and is reflected. This type of laser marking produces a raised marking.
|Beam quality (M²)||< 1.2||< 1.2||< 1.5|
|Wavelength||1064 nm||1064 nm||355 nm|
|Pulse repetition frequency||cw, 1 kHz - 120 kHz||cw, 1 kHz - 120 kHz||cw, 1 kHz - 120 kHz|
|Min. focal diameter||28 μm with focal length 4 in.||28 μm with focal length 4 in.||21 μm with focal length 4 in.|
|Max. internal focal position control||± 51.5 mm with focal length 16.5 in.||± 51.5 mm with focal length 16.5 in.||± 18 mm with focal length 13 in.|
|Max. marking field size||290 mm x 290 mm with focal length 16.5 in.||290 mm x 290 mm with focal length 16.5 in.||210 mm x 210 mm with focal length 13 in.|
|Dimensions of laser head (W x H x D)||200 mm x 301 mm x 670 mm||200 mm x 301 mm x 670 mm||200 mm x 341 mm x 670 mm|
|Dimensions of supply unit (W x H x D)||445 mm x 645 mm x 785 mm||445 mm x 645 mm x 785 mm||445 mm x 645 mm x 785 mm|
|Ambient temperature||15 °C - 40/45 °C||15 °C - 40/45 °C||15 °C - 40/45 °C|
The technical data of all product versions as a download.
The other options for the TruMark Series 6000 optimize your production process and help to improve user-friendliness.
The "Asynchronous Beam Switch 90°" (ABX 90°) dual-head system enables asynchronous marking with two high-precision scanner heads. With this option, the marking fields are rotated 90° in relation to one another. This means that you can mark components from different sides.
The pilot laser is used to simulate the marking content with a visible red light via a laser diode. You get an idea of the marking results in advance so you can position the component in the marking field even more easily.
The focus finder provides visual assistance for manually setting the correct working distance for the relevant application. It can be used for various focusing lenses.
There are many focusing lenses available in different focal lengths for all wavelengths of the TruMark Series. You can select the optimum combination of wavelength and focal length for every application.
The interfaces determine how simple it is to integrate a laser in a machine or production line. The lasers in the TruMark Series 5000 can be connected to a Profibus/Profinet/EtherCAT network and controlled through this. External devices can also be connected and automation systems provided by the customer can be integrated. The IOE interface expansion offers 16 additional digital inputs and 16 digital outputs, as well as 8 digital high-speed inputs and 8 digital high-speed outputs for connecting external devices, and for integrating the laser in the automation systems.
The operating package consists of a monitor and a keyboard with mouse. These are optimally designed for the needs of laser marking.
The TruTops Mark marking software makes marking with the TruMark lasers as easy as possible. The TruTops Mark program combines the marking software, CAD editor, management of laser parameters and interfaces, sequence programming with QuickFlow, and a diagnostics tool. An intuitive interface puts all the functions at your fingertips. You can easily draw and arrange graphic objects with the CAD editor. The database for laser parameters enables you to re-use optimized parameters many times over. You can use the QuickFlow sequence programming to create "drag and drop" programs that control the complete marking cycle from beginning to end. The diagnostics tool visualizes and analyzes the analog measured values recorded by its sensors.
For perfect marking, the workpiece must be aligned correctly in relation to the marking laser. Sensors therefore monitor the process without interruptions and issue a correction signal in the event of doubt. This saves time and gives you process reliability for your production.
You will find the ideal work station option for your workpiece size and application complexity from our work station product line. This includes small, compact marking stations and systems for particularly large components. You can also benefit from various options for automation.
This product range and information may vary depending on the country. Subject to changes to technology, equipment, price, and range of accessories. Please get in touch with your local contact person to find out whether the product is available in your country.