24V Simulation and Training Models
The complete line of fischertechnik training models are available in 24V versions, utilizing 24V motors and components. These models are designed for use with most popular, industry standard PLCs, and allow users to create programming using the PLC language of their choosing. Besides models focusing on specific processes, such as color sorting lines and three axis robots, there are also a series of variations on a factory simulation, which unites several of these individual stations into a complete work cycle. There is even an IoT focused version of the factory, called "Training Factory Industry 4.0", where the processes can be monitored and controlled from a cloud based dashboard.
The fischertechnik Agile Production Simulation 24V with S7-1200 PLCs is designed as an ideal training model tailored for Higher Education and professional Industrial training applications. Consists of individual modules such as incoming and outgoing goods, high-bay warehouse, milling station, drilling station, and quality assurance with AI. A driverless transport system flexibly transports workpieces between the individual stations and ensures a flexible production process that can be adapted to customer requirements.
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The fischertechnik Training Factory Industry 4.0 – 24V is an extremely flexible, modular, reasonably priced, and highly robust training and simulation model for use with most popular industrial PLCs.
Changes in industrial production driven by digitalization make stronger networking and more relevant information necessary on all production levels. With the fischertechnik Training Factory Industry 4.0, these digitalization activities can be simulated, learned, and applied on a small scale before they are implemented on a large scale.
The fischertechnik Training Factory Industry 4.0 is a 24V simulation model that consists of factory modules including storage and retrieval stations, a Vacuum Gripper robot, High-Bay Warehouse, Multi-Processing Station with Oven, a Sorting Line with Color Detection, an environmental sensor, and a pivoting camera. It is especially designed for exploring and understanding industry 4.0 applications in vocational schools and training as well as for research, teaching and development at universities, in companies, and IT departments.
Advantages:
The fischertechnik learning environment is used for learning and understanding industry 4.0 applications in vocational school and training and for use in research, teaching and development at universities, in companies and IT departments. The simulation depicts the ordering process, the production process, and the delivery process in digitized and networked process steps.
Advantages:
The fischertechnik learning environment is used for learning and understanding industry 4.0 applications in vocational school and training and for use in research, teaching and development at universities, in companies and IT departments. The simulation depicts the ordering process, the production process, and the delivery process in digitized and networked process steps.
The fischertechnik Factory Simulation combines four models --Vacuum Gripper Robot, Automated High Bay Warehouse, Multi-Processing Station with Oven, and the Sorting Line with Color Detection--into one self-contained material cycle.
Workpieces are retrieved from the Automated High Bay Warehouse using the Vacuum Gripper Robot, and then moved to the Multi-Processing Station with Oven. After the work-piece has been processed by this machine, it is then sorted by color in the Sorting Line with Color Detection, before being again moved by the Vacuum Gripper Robot to the Automated High Bay Warehouse for storage. Fully assembled training model for use with PLC (Programable Logic Controllers) and PLC programming software.
A system for detecting workpieces of different colors and sorting them via a conveyor belt into three different storage bins. Fully assembled training model for use with PLC (Programable Logic Controllers) and PLC programming software.
Furnace with pneumatic sliding door. Downstream processing station with pneumatic transfer unit including vacuum gripper, cutter with rotary table, and conveyor belt. Fully assembled training model for use with PLC (Programable Logic Controllers) and PLC programming software.
Transfer station with conveyor belt, with shelf stacker for storing and retrieving special workpiece carriers, and 9 storage spots. Fully assembled training model for use with PLC (Programable Logic Controllers) and PLC programming software.
3-axis robot with vacuum gripper. Works quickly and precisely, to position workpieces in three-dimensional space. Fully assembled training model for use with PLC (Programable Logic Controllers) and PLC programming software.
U-shaped conveyor line. Features a milling and a drilling station, and four conveyor belt sections. Fully assembled training model for use with PLC (Programmable Logic Controllers) and PLC programming software.
Conveyor belt with two light barriers, one machining station, and one workpiece. Fully assembled training model for use with PLC (Programable Logic Controllers) and PLC programming software.
Model consists of a transport belt with a length of 275 mm. used to transport workpieces with a diameter of up to 29mm. Multiple conveyors can easily be connected to increase the length of transport as desired. Fully assembled training model for use with PLC (Programable Logic Controllers) and PLC programming software.
3-axis robot with gripping forceps. Robot quickly and precisely positions workpieces in three -dimensional space. Fully assembled training model for use with PLC (Programable Logic Controllers) and PLC programming software.
The storage and transport case for fischertechnik Agile Production Simulation set.