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High accuracy and precision

Automated systems allow precise guidance and adjustment of the laser, resulting in high precision and precise cleaning. This is especially important in industries where parts and surfaces are sensitive.

constant quality

Automated systems ensure the constant quality of the cleaning process, as they work by eliminating human errors. This is particularly beneficial in mass production, where every single part requires the same level of cleanliness.

High efficiency and speed

Automated laser cleaning systems significantly speed up the cleaning process, reducing the required working time. This increases productivity and reduces downtime.

Environmentally friendly

Automated laser cleaning is a chemical-free method that minimizes negative effects on the environment. It reduces the emission of pollutants and the need for waste management.

We have revolutionized laser technology. We are dedicated to the development of multi-functional laser machines that serve a wide range of industrial and commercial applications. Our commitment to innovation, energy efficiency and user-friendly design leads the laser development industry.

Why choose FibereSX?

Multi-function capabilities

Our laser machines are designed to perform various tasks, from cutting to welding and cleaning, from engraving to marking and milling. This versatility makes them an invaluable tool in many industries, including manufacturing, automotive, aerospace, healthcare and more.

Energy-saving solutions

In today’s world, sustainability is not just an option; it is a necessity. FibereerSX lasers are designed to be energy efficient, reducing power consumption without compromising performance. This not only helps reduce operating costs, but also minimizes environmental impacts.

User-friendly design

We understand that ease of use is key to maximizing productivity. Our laser systems have intuitive interfaces, simple controls and comprehensive support, making them easy to operate for both novice and experienced users.

Four year warranty

We stand by the quality and durability of our products. All FiberersX laser machines are covered by a four-year warranty, giving our customers peace of mind and security in their investments. Our commitment to excellence ensures you get a reliable, high-performance, long-lasting solution.

AUTOMATED LASER

Stable and predictable laser option. No user-fault possibility. Easy-to-use, safe solution thanks to the closed workstations with sensors. Can be operated remotely. Compatible with CAD files (2D, 3D). It can be controlled with a robotic hand or robot. Expandable movement with X, Y table.

Our equipments are fully adaptable. They can be integrated into production lines and combined with other technologies. Each project is designed after the inspection of the working area according to the customer’s requirements, safety regulations, and the possibilities given to the intended location of the machine. When the workflow is not entirely automatic, we prefer comfortable work, taking into account the human factor that provides the possibility of a presonalized workplace.

According to the expectations of our customers, the equipment can be: stand-alone or integrated; apart or workstation with fixed location; mobile: as a modul or unit.

All variations are user-friendly, and it provides easy software and hardware use for its operator. Our machines have CE certification, paying attention to European Union-level security and environmental standards. By doing so, a safe workflow is guaranteed.

In addition to the economical operation of the machines, the cleaning process is extremely time- and cost-effective. Laser cleaning can be done manually or integrated into an automated production line; we fully provide formatting and design for our customers. You can easily clean tools from the most stubborn rust, oxides, deposits, oils and paints. The laser is the perfect solution for cleaning tools; removes dirt from tools with simple or complex surfaces without material loss.

Laser cleaning is a non-contact process; therefore, no post-work is neededCleaning with laser means high cleaning efficiency and low operating and maintenance costs. Cleaning time is minimal thanks to the high speed, which increases efficiency, resulting in greater profit. There is no loss of material during the cleaning process. Easily integrated into workflows.

Proper maintenance of tools is an essential for injection molding tools. The lifespan of the tool is increasing as a result of the cleaning process; this is how the quality of the product to be manufactured can be maintained. In general, these tools only get to disassembly when production with them is finished. Unfortunately, this can result in a decrease in the tool’s lifespan and lead to longer downtime; the available maintenance time is also minimal.

Cleaning accounts for most of the tool’s maintenance, which is unfortunately due to the fact that many people still use traditional cleaning processes. Such methods include manual cleaning, chemical cleaning, or sandblasting. The disadvantage of traditional cleaning methods is that they require additional materials and special machines; they need a separate environment, not to mention that these methods harm both human healt and the environment. With traditional methods, only accessible surfaces can be cleaned, and dirt in hard-to-reach places cannot be removed.

Laser cleaning has countless advantages over conventional surface cleaning methods.No additional materials are needed during the cleaning process, unlike traditional methods such as sand blasting, dry ice blasting, chemical cleaning, salt spray, etc. It does not require follow-up work, thus the procedure is fast, precise, accurate, and gentle. The cleaning of the tool can be integrated into the work process, and the cleaning can also be done without disassembling the tool.

Laser cleaning is not only an environmentally friendly process but also involves a one time investment cost. It pays off in a short time, as there is no need for chemicals and other mechanical devices, and the energy consumption is much lower as well.

Flexible through modularity

With today’s laser technology, glass, plexiglass and other materials with a weaker composition can be processed without any problems. In laser technology, marking is considered a basic function. Here too, our modularity stands out, because all of our machines can mark, but can also be combined with other functions, so that we can create a completely unique, personalized equipment for you.

Advantages

Laser engraving and laser marking are the best methods for creating permanent markings on a wide range of materials. They can be used on everything from glass and plastic to wood and metal. They easily withstand post-processing (e.g. paint) and remain identifiable. Unlike other marking techniques, the excellent traceability and durability of laser marking is exceptional. Due to its exceptional speed and high contrast effect, laser technology is the best choice. Laser technology also allows surface markings and deep markings with a targeting device.

Time-resistant

Deep marking works on a wide range of materials and creates a permanent mark. It is particularly suitable for use in places where the marking must remain identifiable for years. For example, after years of exposure to harsh chemicals, moisture and dirt, you can still read the laser-engraved data thanks to the high contrast, e.g. the QR code, the series of numbers, etc.

In industrial processes, automation plays an increasingly important role in increasing efficiency and productivity. The possibilities of automation offered by laser technologies are revolutionizing production processes. Automated laser systems simplify and optimize processes, minimizing the need for human intervention. This reduces human errors and increases process reliability. In industrial automation, laser technologies offer manufacturers flexibility and versatility. In industry, the automation of laser technologies opens up new opportunities in many industries. From the automotive industry to electronics manufacturing, from healthcare to aircraft manufacturing.

These automated systems make it possible to increase productivity without human intervention. In this way, we can reach the desired number of pieces much faster and this way, excluding unnecessary downtime.

For workstations with closed sensors, we get a system that complies with all safety regulations. The biggest advantage of laser automation is that it can be operated and controlled remotely, can be controlled with compatible CAD files or with a robot hand and robot, and the movement can be expanded with an X,Y table.

Laser cleaning is a technology used to remove contaminants such as rust, paint, oxides, and other residues from surfaces using laser ablation. The process can be performed manually or automatically, depending on the specific requirements and the scale of the operation.

Manual Laser Cleaning

Advantages:

Flexibility: Ideal for cleaning complex geometries and hard-to-reach areas where automated systems might struggle.

Cost-Effective for Small Jobs: Lower initial investment compared to automated systems, making it suitable for smaller-scale operations or occasional use.

Portability: Manual systems are often more portable, allowing operators to move the laser to different locations as needed.

Precision: Skilled operators can adjust the laser parameters in real-time for precise cleaning.

Disadvantages:

Inconsistency: The quality of cleaning can vary based on the operator’s skill and fatigue levels.
Safety Risks: Higher risk of operator exposure to laser radiation, which requires stringent safety measures.
Slower: Generally slower than automated systems, especially for large-scale or repetitive tasks.

Automated Laser Cleaning

Advantages:

1. Efficiency: Capable of high-speed cleaning, suitable for large-scale and repetitive tasks, increasing overall productivity.
2. Consistency: Delivers consistent cleaning quality, reducing variability caused by human factors.
3. Safety: Reduced risk to operators as the system can be enclosed, minimizing exposure to laser radiation.
4. Integration: Can be integrated into production lines for continuous operation, minimizing downtime.
5. Precision and Control: Advanced systems can precisely control the laser parameters, ensuring optimal cleaning without damaging the substrate.

Disadvantages:

Higher Initial Cost: Significant upfront investment in automated systems, which may not be cost-effective for small-scale operations.
Complexity: Requires technical expertise to set up, program, and maintain the system.

Applications

Manual Laser Cleaning: Suitable for restoration work, maintenance, and small batch cleaning tasks. Common in industries such as aerospace, metal industry and automotive repair.
Automated Laser Cleaning: Ideal for high-volume manufacturing environments such as automotive production lines, shipbuilding, and heavy machinery maintenance.

Topology-following laser cleaning technology is an advanced approach that enhances the precision and effectiveness of laser cleaning by adapting to the three-dimensional shape (topology) of the object being cleaned. This method is particularly beneficial for cleaning complex geometries and surfaces that are not flat.

Adaptive Laser Control

The laser cleaning system adjusts its parameters (such as power, pulse duration, and frequency) in real-time based on the surface topology. This adaptation ensures consistent cleaning performance across different surface angles and depths.

Benefits of Topology-Following Laser Cleaning

• Precision Cleaning: Adapts to complex geometries and irregular surfaces, ensuring all areas are cleaned without manual intervention.
• Consistent Quality: Maintains uniform cleaning quality across the entire surface, avoiding over-cleaning or under-cleaning.
• Efficiency: Reduces cleaning time and increases throughput by optimizing the laser path and parameters.
• Non-Contact: Like traditional laser cleaning, it is non-contact, reducing the risk of damaging delicate surfaces.
• Versatility: Suitable for a wide range of materials and contaminants, including rust, paint, coatings, and organic residues.

Manual laser cleaning can be an effective method for maintaining and restoring amorphous tools, which are often used in various industrial applications due to their unique properties such as high hardness and wear resistance. If we use the laser cleaning equipment correctly, we can extend the service life of our tools.

Cleaning Process:

• Position the laser cleaning head at the recommended distance from the tool surface.
• Move the laser beam across the surface of the tool in a controlled manner, ensuring even coverage.
• Use a raster scan pattern to ensure all areas are cleaned uniformly

benefits:

• Non-Abrasive: Laser cleaning does not physically abrade the tool surface, preserving its structural integrity.
• Precision: Allows for targeted cleaning of specific areas without affecting the rest of the tool.
• Versatility: Can be used to remove various types of contaminants, including rust, paint, and coatings.

The production of small QR codes with laser technology is one of today’s most modern and effective methods, which offers innovative solutions in many industries. The use of laser technology is not only beneficial in terms of accuracy and speed, but also enables the precise machining of various materials.

detailed miniature marking

Lasers are capable of creating extremely small and detailed patterns, which is essential for small QR codes. Such codes require precise processing of each point and line in order for the code to be read easily and error-free. Lasers also work quickly and efficiently, resulting in significant time savings during the manufacturing process.

a diversity of materials

One of the outstanding features of laser technology is that it can be used on many different materials. Whether it is metal, plastic, glass, ceramic or even organic materials, lasers can precisely machine all of these materials, which is particularly useful as the areas of application of QR codes can be extremely diverse.

areas of application

Laser production of small QR codes can be useful in many industries. In the electronics industry, for example, they can be used to identify chips and small electronic components. Tracking and identification of medical devices such as surgical instruments and implants can also be accomplished using laser QR codes. In the fashion industry, such as jewelry and watches, codes can be used to ensure authenticity and traceability.