CNC LATHE - CNC WORKING CENTER - ROBOT - LASER WELDING MACHINE - LASER CUTTING SYSTEM

The school 4.0 approach implies a significant evolution in teaching and learning. It is an interactive and technological school, where technology is used as a tool to improve the students' learning experience.

School 4.0 is characterized by the use of advanced technological devices and tools, such as digital whiteboards, tablets, computers, apps, software and online platforms, CNC machine tools, laser welders, robots, laser cutting systems. These tools allow teachers to create interactive and engaging lessons, customized to the needs of each individual student.

Furthermore, School 4.0 promotes collaborative learning and knowledge sharing between students and teachers. Students are encouraged to work in teams and use technologies to collaborate on solving problems and creating innovative projects.

In summary, school 4.0 represents a unique opportunity for students to approach technology and acquire the skills they will need in the world of work of the future.

The CNC lathe it is a machine tool that uses a computer to control its operation. This technology has become increasingly popular in the manufacturing industry, but it can also be used for educational purposes.

The use of a CNC lathe in an educational setting can provide help in teaching metalworking to future mechanical engineers and technicians. This is because the CNC lathe offers a wide range of features that allow students to learn the most advanced metalworking techniques.

Furthermore, the use of a CNC lathe in an educational setting can allow students to acquire skills in programming and operating machines. These skills can be useful for their professional development in manufacturing.

In summary, using the CNC lathe for educational purposes can provide students with the opportunity to develop their technical and programming skills, preparing them for a future in the manufacturing industry.

The AUBO collaborative robot It has the load capacity that can cover different applications in every industry and quickly adapt to the needs of application scenarios in various industries thanks to numerous configuration options. They are ideal choices for improving production efficiency.

FEATURES AND BENEFITS:

MORE OPEN: The open system platform supports multiple communication methods, SDKs and APIs, and can establish communication with more peripheral equipment such as terminals, visual and mobile equipment.

PRECISE: High precision work can be completed continuously for a long time, thus greatly improving production yield.

SIMPLE: Can be operated with many methods including teaching drag, coordinate positioning, path planning and offline programming. The visual interface is simple and easy to learn.

FLEXIBLE DISTRIBUTION: Lightweight, compact and small in size. It takes on average only half a day to deploy the arm to perform new tasks.

FLEXIBLE PRODUCTION: With the rapid change of multiple scenarios, human-machine collaboration, two-machine collaboration and multi-machine collaboration can be adopted to realize flexible production.

The robot is designed to be used in different fields such as:

INDUSTRIAL FIELD: assembly, screwing, polishing and sanding, gluing, inspection and welding. in fact it can be interconnected to a laser welding machine.

MOBILE ROBOT: Logistics sorting, inspection and patrol robot.

AUTOMOTIVE FIELD.

This robot has a payload of 10kg, maximum length 1513mm and you can reach a maximum of 1350mm.

Large payload, long working length, the end can realize 360° rotation.

Fiber laser cutting systems are an advanced manufacturing technology that enables precise, fast and high-quality cuts on a wide range of materials. These systems are particularly effective for cutting metals such as steel, aluminum and copper, but can also be used for other materials such as plastic, wood and glass.

The operation of a fiber laser cutting system it's relatively simple. The laser generates a highly concentrated beam of light that is focused on a very small point on the surface of the material to be cut. This intense, concentrated light creates a melt zone on the material that is rapidly cooled, leaving a clean, precise cut.

One of the advantages of these systems is their cutting speed. Thanks to fiber technology, laser cutting systems can cut materials much faster than other cutting methods. Additionally, fiber laser cutting is highly precise and repeatable, meaning you can produce parts of precise sizes and shapes with ease.

In summary, fiber laser cutting systems are a highly advanced manufacturing technology that offers a wide range of advantages over other cutting technologies. Thanks to their speed, precision and cutting quality, these systems have become a fundamental tool for many companies looking to produce high-quality parts quickly and efficiently.

A CNC machining center, acronym for Computerized Numerical Control, is a machine tool used for processing materials such as metal, plastic and wood. Thanks to numerical control, these machines can perform milling, drilling, turning and even injection molding operations precisely and repeatably.

The heart of the CNC machining center is the control software, which transforms CAD drawings into movement instructions for the machine. This process allows parts to be produced with very high precision, minimizing human errors and increasing the efficiency of the production process.

CNC machining centers are widely used in the manufacturing industry, where they are used to produce high-precision parts in large quantities. However, due to their flexibility, they are also used in many other applications, such as the production of prototypes and custom parts for the automotive, aerospace, medical and energy industries.