Operator involvement is at a maximum. All tasks are completed by the operator.
Autonomous laser cutting
The machine of the future cuts autonomously – we're sure of that. We also know who will benefit the most from it: you. This is because our future technology is aware. It looks ahead. Works almost on its own. With the person in control at all times. This is only possibly through the interplay between intelligent assistance systems, adaptive machine functions, and last but not least, ground-breaking ideas. Discover TRUMPF's vision for autonomous machines now, as well as our innovations which are already available now, and their potential for your sheet metal processing. Join us in the autonomous future.
Much more than a vision: autonomous machines at TRUMPF
We have laid the cornerstone for autonomous machines through numerous assistance systems. Progress is far from complete, and we are certain that the future belongs to autonomously working machines. They monitor and regulate the machining process, enabling a smooth production process. The operator is unburdened, and their role changes to that of a process manager. This collaboration between human and machine achieves optimal results.
5 stages to autonomous machines
The machine supports the operator with selected tasks. The operator is primarily located around the machine.
The matchine regulates the cut mostly on its own. Generally the operator has only to be by the machine at predictable points in time.
The machine prevents interruptions by self-optimization. The operator is informed about necessary interventions in advance.
The machine reacts independantly to all interruptions in the production process. Operator involvement is kept to a minimum, the focus is on machine maintenance.
Our vision is clearly defined. We have our sights set on developing machines which operate autonomously. With the new Active Speed Control system for adaptive feed control and the TruLaser Center 7030 full-service laser machine, we have crossed the threshold to the third stage on the scale. The fifth stage is a fully autonomous machine. When it comes to classification, the following parameters are especially taken into account for location determination: proportion of manual monitoring and operator involvement at the machine. The focus lies on a machine's ability to recognize, prevent, and resolve malfunctions independently – without human intervention. Our vision is for the operator to have a central role involving having control and managing the process.
Large strides forward: intelligent sensor systems increase productivity
One part of our vision is already a reality. Intelligent assistance systems for laser cutting develop execution strategies, for example, which prevent collision with tilting parts, or make post-producing of parts out of scrap skeletons easier. Even nozzles are automatically inspected and replaced if necessary. The proportion of machine functions which control processes independently is ever-increasing.
An important milestone on the path to autonomous machines is the newly developed Active Speed Control system for adaptive feed control. The system monitors the kerf through the nozzle, oversees the cutting process, and independently regulates feed speed. It ensures the right feed level for flame and fusion cutting, even in the event of thickness variations in a sheet, or if the sheet has been affected by quality fluctuations (i.e. rust or coating remnants). Data analysis makes quick and stable cutting possible. This can prevent disruptions to cutting, and noticeably reduces the number of reject parts. The operator is also relieved. They can pull up the most important process parameters or a live-image through the nozzle any time, and will be actively informed if the need for intervention arises. Tapeshots which were necessary up to this point are now a thing of the past.
Active Speed Control oversees the process, controls cutting
Comparison between laser cutting with and without feed control
Take a look behind the scenes
TRUMPF is a pioneer in the laser cutting industry. To ensure we remain so in the future, we research tirelessly, always on the boundary of technological possibilities. We have a clear vision on the path to autonomous machines: to make the work of operators easier, through simple and sophisticated operating concepts. Our solutions give them the ability to respond to potential malfunctions with ease. The focus is on cost-effectiveness, as compared to non-assisted processing, the part costs for autonomous processes are significantly lower.
Performance analysis: TRUMPF developers optimize the processing for all sheet thicknesses
It just gets better – TRUMPF developers are evaluating cutting data in order to further optimize Active Speed Control
Agile project planning: 2D laser development employees in a sprint review
Electrifying: future technology arises in the electronics lab as well, where new components are put through their paces
Nothing escapes a trained eye: visual inspection of part quality during the development process
Nothing ventured, nothing gained: testing new functions and control parameters under real-world conditions are also part of the development of new machines
Full overview: checking the protective glass after test running a machine in development
There is no "I" in team: technical breakthroughs such as Active Speed Control and the development of the TruLaser Center 7030 can only be achieved as a team
Ready for the future – be prepared for anything with intelligent functions from TRUMPF
Assistance systems make life easier; they shorten and simplify many processes in laser cutting, as well as make them noticeably more reliable. This allows you to put your machines to optimal use, and minimize manual interventions. In addition to the newly developed Active Speed Control, TRUMPF also offers solutions for every process step in the form of intelligent functions. A compact selection of functions for autonomous laser cutting can be found here.
Mit AdjustLine schneiden Sie auch minderwertiges Material schnell und einfach. Denn die Funktion passt die Parameter automatisch an diese Situation an. So sparen Sie Ausschuss und Materialkosten.
Der Düsenwechsler wechselt die Schneiddüse automatisch, falls für die Bearbeitung eines neuen Auftrags oder aufgrund von Verschleiß erforderlich. So profitieren Sie von reduzierten Nebenzeiten und weniger manuellen Eingriffen.
Das Nonplusultra in Sachen Kantenqualität: Bei Edelstahl und Baustahl schneidet Ihr CO2-Laser mit BrightLine. Aber auch der Festkörperlaser kann dank BrightLine fiber äußerst hochwertige Schneidergebnisse liefern.
Die Ampel des Condition Guide zeigt Ihnen den Status wichtiger Elemente, die die Schneidfähigkeit beeinflussen; bei Bedarf gibt Ihnen das Programm Handlungsempfehlungen und erstellt Prognosen, wann eine Wartung nötig wird.
Mit CoolLine gelingen sogar enge Konturen problemlos. Die Funktion hält Ihr Werkstück während des Schneidens konstant kühl. Auf diese Weise können Sie auch filigrane Teile schneiden und noch enger schachteln.
Ein Kamerasystem bestimmt die Lage eingelegter Bleche präzise und ermöglicht die hochgenaue Nacharbeit geschnittener Teile. Außerdem vermisst DetectLine einen geschnittenen Fokuskamm automatisch und stellt die Fokuslage ein.
Dank der Kameraunterstützung von Drop&Cut produzieren Sie Teile aus bestehenden Programmen in Sekundenschnelle nach. Zudem verwerten Sie ungenutzte Resttafeln.
Schneidkopfwechsel kosten immer zu viel Zeit. Schaffen Sie sie einfach ab: Denn dank der Ein-Schneidkopf-Strategie bearbeiten Sie alle Blechdicken mit ein und demselben Schneidkopf.
Mit dem Schneidturbo Highspeed Eco können Sie Ihren Tafeldurchsatz und Ihre Vorschubgeschwindigkeit verdoppeln. Gleichzeitig sinkt Ihr Schneidgasverbrauch um bis zu 70 %. So wird Stickstoffschneiden mit Festkörperlaser extrem effizient.
Oft drohen beim Schneiden von Dünnblech Kollisionen durch kippende Teile. Der durchdachte Kollisionsschutz ist eine Art Airbag für Ihren Schneidkopf, der höchste Prozesssicherheit garantiert und strukturelle Schäden vermeidet.
Spritzer können die Fokussierlinsen von CO2-Maschinen verunreinigen. LensLine überwacht die Linse und schaltet den Strahl notfalls ab. Ihr Vorteil: Die Maschine steht nur kurz zur Linsenreinigung still.
Den korrekten Fokus des Lasers überprüft Smart Beam Control für Sie. Bei Bedarf regelt die Funktion die Fokuslage einfach nach. Das spart Zeit und macht den Prozess jederzeit sicher.
Vermeiden Sie teure Kollisionen mit Smart Collision Prevention: Ihre Maschine fertigt Teile und Innenkonturen in einer Reihenfolge, die das Kippen freigeschnittener Teile clever einkalkuliert.
Sind Ihre Düsen nicht mehr im einwandfreiem Zustand, kann es zu Gratbildung kommen. Die Folge: Nacharbeit oder Ausschuss. Smart Nozzle Automation wechselt die richtige Düse ein und überprüft Düsenzustand und Strahlzentrierung.
Leading the way – TruLaser Center 7030
What do autonomous machines mean for your production?
The age of intelligent production is already underway. TRUMPF machines are increasingly independent in their operation; they analyze and regulate processes. With your help, malfunctions can be prevented, and productivity can be increased. Employees can already be supported and relieved during many operations even today. Laser cutting will also become easier and less stressful in the future. Interested in learning the advantages that integrating autonomous and partially autonomous technologies can bring to your 2D laser processing? Click on the green dots in the image to find out more.
1. Fewer reject parts
Nip rejects in the bud: the sensor system can detect low quality materials or contaminations, thereby preventing cutting flaws before they occur.
2. Intuitive machines
Many malfunctions are detected or prevented through intelligent assistance systems. The Touchpoint HMI user interface allows machines to be operated more intuitively. Additional autonomous laser cutting functions can also be simply installed via software updates in the future
3. Transparent processes
This is how free of stress work can be: information or error messages are sent quickly and simply on the go, to a tablet or smartphone. The operator is informed whether manual intervention is required.
4. Relieved operators
While the cutting process is running smoothly, the operator has time for other tasks, for example material logistics or work preparations. This enables maximum productivity and machine utilization.
5. Error-free night shifts
Partially autonomous functions and automation components allow for stable production with minimal monitoring – even during night shifts with fewer personnel.
6. Maintenance and setup can be planned
In the future, it will be possible for autonomous laser cutting machines to recommend and control maintenance, as well as diagnose setup requirements on their own. EasyOrder is already allowing for easy ordering and quick availability of consumables.
7. Speeds far beyond default values
Active Speed Control renders the need to take buffers into account redundant. The sensor system allows the machine to work as quickly as possible, and with as much process reliability as necessary, respectively. Often speeds are achieved which are significantly higher than the default values contained in the cutting data.
8. Automatic post-production
In the future, highly autonomous and fully autonomous laser cutting machines will automatically determine restart strategies after remedying a malfunction. This enables automatic post-production.
9. Less reworking
Active Speed Control determines the optimal feed rate and adjusts this if required, even if sheet thickness varies. In many cases this reduces the amount of burr and dross build-up.
Something to consider
Even now we can look back on numerous milestones on the path to autonomous machines. This includes machine functions and assistance systems such as Smart Collision Prevention for collision avoidance, Smart Nozzle Automation, the automatic nozzle changer, as well as Smart Beam Control for intelligent laser beam monitoring. Development is nowhere near finished however, as demonstrated by ground-breaking developments such as the TruLaser Center 7030 full-service laser machine, or the Active Speed Control system for adaptive feed control. It will take a few years to reach full autonomy. Networked production environments and artificial intelligence (AI) will play an important part here.
Every company with a goal of keeping a sharp competitive edge in the age of digitalization achieves positive results through the automation of processes and the implementation of autonomously operating machines. Intelligent automation solutions for example, create the basis for cost-effective production and offer many advantages in terms of efficiency and transparency. But what good is the fastest machine if, for example, parts tilt? Intelligent assistance systems are the solution for many future challenges. Idle times can quickly take up half the working time of 2D laser cutting machines; this is how long it takes to equip, sort, or rectify malfunctions. Autonomously producing laser machines are able to prevent and rectify malfunctions on their own.
An increase in autonomy leads to a decrease in part costs. This is because fewer cases of malfunctions occur during production in general, and if they do occur, they are immediately detected and remedied by the machine – with operator support if required. This has a positive effect on output. Additionally, a significant decrease in rejects is produced. Active Speed Control proactively prevents cutting interruptions caused by fluctuating material quality, for example. This, for example, will prevent the undetected production of reject parts.
Production without malfunctions and rejects is desirable, but not quite realistic; the goal is to decrease the number of items that go to the scrap container. There will, however, always be materials and qualities which are only suitable for precise laser cutting under certain conditions. Whether produced parts require reworking is always dependent on the application. Burr and dross formation cannot be entirely eliminated. We are, however, working towards the goal of using the file as rarely as possible.
Active Speed Control is the latest TRUMPF development on the path to autonomous machines, and provides the entry to partially autonomous laser cutting. It makes parts production more robust, transparent, independent, and most of all, more productive. This is enabled through constant monitoring of the cutting process. With a live-view through the nozzle, the sensor system monitors the light that is emitted during material welding. Based on this so-called process light, it determines whether the welding is going according to plan, identifies the fastest possible feed, and adjusts this if required – hundreds of times per second. This creates fewer rejects, more process reliability, and less operator involvement with the machine.
Absolutely not. Operator involvement with the machine is decreasing, but for good reason – they will no longer need to shoulder the burden of having to manually monitor the cutting process. This means that they are relieved. The necessity of manual intervention in critical situations is drastically reduced. Instead, the operator receives information (for example with the Active Speed Control system for adaptive feed control) on their mobile device, and can react accordingly. What's particularly advantageous is that the operator is now able to focus on other tasks, such as programming, or preparing for setup or maintenance. They always have absolute control, supported by the laser machine and its assistance systems.