Smart Factory

Smart Factory

In the factories of the future, the digitalization of information, combined with high performance hardware, allows the implementation of more flexible and optimized production architectures.The level of innovation is such that today Industry 4.0 is synonymous with smart manufacturing. The student is required to know the processes of the integral management of information, by means of the use of digital technology. De Lorenzo creates a collaborative environment to study the concepts related to Industry 4.0, integrating subsystems normally found in a production plant.

The trainer is composed of a set of electronic boards and simulator to study different subsystems that can be found on a real production line. Students will be able to do practical work covering topics from the introduction to automation and robotics, communication protocols (IOT), sensors and actuators to a complete study of a production process.

De Lorenzo's didactic systems for the study of Industry 4.0 are an answer for the development of these new competences that the new industry requires, that is why, with our equipment, students will learn, theoretically and experimentally, the didactic objectives proposed in their study programs.

Products Details

De Lorenzo’s solution creates a collaborative environment to study concepts related to Industry 4.0, integrating small-scale subsystems that are typically present in a manufacturing plant.

The trainer is composed of a set of electronic boards and simulators to study the different subsystems that can be found in a real production line. Using an Arduino open-source microcontroller connected to a SCADA software for data acquisition and control, the students will be able to perform practices covering topics that range from the introduction to automation and robotics, communication protocols (IOT), sensors and actuators to a complete study of a productive system.

DL I4.0 FACTORY

The design and construction of electronic circuits to solve practical problems is an essential technique in the fields of electronic engineering and computer engineering.

With this board the students can study the properties of an RFID system and all components necessary to develop a door access control system.

The student will be able to interact with the hardware in a simple and intuitive way through a CAI software that explains step by step how the system works.

The integration of the RFID elements in an industrial process is possible using a SCADA software for the study of automation and industry 4.0 concepts.

DL 3155BRS-RFID

The design and construction of electronic circuits to solve practical problems is an essential technique in the fields of electronic engineering and computer engineering.

With this board system, the students can learn about the properties of a 5-axis robotic arm used in industrial environments. Sensors and actuators are included to develop a complete course on robot control systems.

The student will be able to interact with the hardware in a simple and intuitive way through a CAI software that explains step by step how the system works.

The integration of a 5-axis robotic arm in an industrial process is possible using a SCADA software for the study of automation and industry 4.0 concepts.

DL ROB-SIM

The design and construction of electronic circuits to solve practical problems is an essential technique in the fields of electronic engineering and computer engineering.

With this training system, students can learn about the properties of a conveyor belt used in industrial environments. Sensors and actuators are included to develop a complete course on the main features of conveyor systems and their applications.

The student will be able to interact with the hardware in a simple and intuitive way through a CAI software that explains step by step how the system works.

The integration of a 5-axis robotic arm in an industrial process is possible using a SCADA software for the study of automation and industry 4.0 concepts.

DL CIM-SIM

The design and construction of electronic circuits to solve practical problems is an essential technique in the fields of electronic engineering and computer engineering.

With this board system, the students can learn about the properties of a 5-axis robotic arm used in industrial environments. Sensors and actuators are included to develop a complete course on robot control systems.

The student will be able to interact with the hardware in a simple and intuitive way through a CAI software that explains step by step how the system works.

The integration of a 5-axis robotic arm in an industrial process is possible using a SCADA software for the study of automation and industry 4.0 concepts.

DL WMS-SIM

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CataloguesCodeSheet
INDUSTRY 4.0 SMART FACTORY LEARNING LABORATORYDL I4.0 FACTORY
KIT FOR THE STUDY OF RFID APPLICATIONSDL 3155BRS-RFID
DIDACTIC TRAINER FOR THE STUDY OF THE CONTROL SYSTEMS OF A 5-AXIS ROBOTIC ARMDL ROB-SIM
DIDACTIC TRAINER FOR THE STUDY OF A CONVEYOR BELTDL CIM-SIM
DIDACTIC TRAINER FOR THE STUDY OF A WAREHOUSE MANAGEMENT SYSTEMDL WMS-SIM