Our company specializes in the unique development of laser technology. We pride ourselves on creating bespoke workstations, each meticulously designed to meet the specific needs of each project.
She or He developed a unique engineering service for our company's clients. Among other things, preventive maintenance, we are able to provide assistance both remotely and nearby.
A fast, reliable and precise solution for harder materials. The fiber laser is a red light laser that generates heat, i.e. emits heat. Excitation is carried out with light emitted by diodes. The construction of fiber lasers does not require beam chambers, sensitive mirrors and lens systems, as the beam is guided to the material to be processed on an optical fiber. The wavelength of the laser beam created by fiber lasers is 1 micrometer, this is the parameter that significantly affects the absorption of the laser beam, i.e. the ability of the material to be processed to absorb the energy of the laser beam. Which laser can be used to perform the desired task more effectively depends on the material of the workpiece, since a material has different absorption and reflection properties in different wavelength ranges. Due to its strength, it is recommended to be used mostly on harder materials, including metal surfaces, e.g. aluminum, copper, chrome, titanium, iron, steel.
A low-heat, high-performance solution for more fragile materials. With the uv laser, it is important to emphasize that it performs the task with low heat, so the processing involves minimal heat release, so material torsion does not occur. We get a cleaner final product because this type of laser is used for softer, more fragile materials. For example, when marking a plastic, it does not burn or melt the material, so we get a perfect and appreciable result. In case of marking, even the contrasts between the materials are clearly visible and the UV laser equipment provides better readability. Burrs are not created during the processes and discoloration will not occur, so it does not require post-work. It can be easily applied to plastic, glass, Plexiglas and other more fragile materials, including PCB, silicone, ceramic and paper.
High-performance solution with good beam quality. The CO2 laser is a continuous gas laser, the resonator is located in the laser machine, in which the medium is typically nitrogen, helium, hydrogen and carbon dioxide. Excited with a high-voltage current, laser light is generated with the help of the nitrogen present. The resulting beam exits the medium through a semi-transparent mirror. Special mirrors and lenses guide the light to the area to be worked on. During the formation of laser light, heat is generated, so the resonator and the medium must be continuously cooled. The laser light produced by the CO2 laser has a wavelength of about 10 micrometers. Because of the materials in it, it is more difficult to use than a fiber or a UV laser and its size is also completely different, so its flexibility is not as outstanding as that of the two aforementioned lasers. It can be used on wood, metal, glass, granite, Plexiglas and even textiles.
The laser module can be integrated into a production line, integrated into a robot arm, or can be individually installed by a machine builder. Of course, we also cooperate with popular machine builders or our own machine builders within the factory. If the partner does not have a machine builder, we can recommend a suitable one for him/ her or, upon agreement, we can also integrate it into the production line.
An easy-to-use solution, mainly used for products with a small number of pieces. Space-saving equipment, which we can later take back from our customer, should the laser module be installed on the production line. It fully complies with occupational health and safety regulations and we can customize it according to your needs. We take into account the size of the products, the task to be performed and the accessories required for it.
In the public mind, its more common name is manual laser equipment, and another name is 1D laser equipment. Which provides a simple technological solution for the user. Taking the customer's needs into account, we design our equipment in such a way that it is easy to use or the equipment itself is portable. A control panel is located at the front of the device and the wheels help to move it around without any problems. If the needs require something else, the equipment will be designed accordingly. The 1D laser equipment is mainly recommended for cleaning amorphous, complicated shapes. With this type of design, we are also capable of manual laser welding, but we are also able to automate the process according to needs.
Robotics and laser technology have individually revolutionized different industries, and their integration has led to even more advanced applications. Here are some examples of the combined use of the two technologies:
Robotics involves the design, construction, operation and use of robots to perform tasks. Robots can be programmed to perform tasks precisely, quickly and accurately. FibereerSX laser technology also ensures precise, fast and accurate work during production processes.
In addition to the automotive industry, the two technologies can be used together in many places, as the laser module can also be placed on a robot arm due to its lightness, but it can also be placed in a fixed position and the robot moves the product. We can provide many solutions and variations for our partners. Overall, the integration of robotics and laser technology continues to drive innovation across industries, enabling more efficient, precise and versatile solutions to complex challenges.
In manufacturing processes, robotic arms equipped with laser cutters or welders can precisely cut or weld materials. Laser cutting and welding robots offer high speed and precision, making them suitable for tasks such as metal fabrication, automotive manufacturing, and electronics assembly.
Innovative solutions are created in several areas by combining robotics and laser technology
The equipment of our workstations depends on the needs. Sensors, detectors and cameras can also be integrated into the equipment. In addition to individual needs, we will of course examine which laser module will be the most suitable for the given task.
Our automated workstations have a completely unique design. They also differ in size and equipment, as each project has different requirements.
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