The fischertechnik Factory Simulation 4.0 set contains all of the components found in four different models.
Vacuum Gripper Robot:
- 4 DC motors, including 2 with integrated magnetic encoder (max. pulse frequency 1kHz)
- 4 Limit switches
- 2 Pulse sensors for path measurement
- 8 Digital inputs
- 8 Outputs, 9V -:
- 4 motors clockwise/counterclockwise rotation
Automated High Bay Warehouse:
- 2 encoder motors
- 2 mini motors
- 4 push buttons (limit switch)
- 2 phototransistors
- 2 lens tip lamps
- Workpiece carriers
- Various colored workpieces (6 pieces)
Multi-Processing Station with Oven:
- 4 mini motors
- 6 push buttons (limit switch)
- 2 phototransistors
- 2 lens tip lamps
- 4 solenoid valves
- 1 compressor
Sorting Line with Color Detection:
- 2 mini motors
- 5 phototransistors
- 5 lens tip lamps
- 3 solenoid valves
- 1 compressor
- 1 optical color sensor
Requires three (3) 9V power supplies for all operation.
The fischertechnik Training Factory Industry 4.0 is extremely flexible, modular, reasonably priced, and highly robust training and simulation model, highly effective in use.
The fischertechnik learning environment is used 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. The simulation depicts the ordering process, the production process and the delivery process in digitized and networked process steps.
The following topics can be implemented with fischertechnik Training Factory Industry 4.0:
- Training and simulation on a realistic production model
- In-depth learning through haptic comprehension
- Optical and sensory applications
- Digital traceability with NFC/RFID
- Customized production in lot size 1
- Integrated cloud connection, control via smart devices
- Using and operating dashboards
- Web-based remote maintenance
- Linking of production and materials planning data
- Connection of upstream and downstream logistics processes
- For experts: own program creation in C/C++
This consists of the factory modules like 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. After the order has been placed in the dashboard, the workpieces pass through the respective factory modules, and the current status is immediately visible on the dashboard.
The integrated environmental sensor reports values for temperature, humidity, air pressure and air quality. The camera sees the entire system through the vertical and horizontal pan range and can thus be used for web-based remote monitoring.
Individual workpieces are tracked using NFC (Near Field Communication): A unique identification number (ID) is assigned to each workpiece. This enables traceability and visibility of the current status of the workpieces in the machining process.
The fischertechnik Training Factory Industry 4.0 is controlled by the 9V-based fischertechnik TXT controller; its six units are installed. These are networked within the factory and communicate with each other via MQTT. MQTT (Message Queuing Telemetry Transport) is an open message protocol that enables the transmission of data in the form of messages between devices.
The complete performance data of the TXT controller can be viewed at www.fischertechnik.de; the most important features are:
- Dual processor: ARM Cortex A8 (32-bit/600MHz) + Cortex M3
- Storage capacity: 256 MB DDR3 RAM, 128 MB Flash
- Storage extension: Micro SD card slot
- Display: color 2.4” touch display (320x240 pixels)
- 8 universal inputs: Digital/analogue 0-9VDC, analogue 0-5 k?
- 4 quick counter inputs: Digital, frequency up to 1 kHz
- 4 motor outputs 9 V/250 mA (maximum: 800 mA): Infinitely variable speed, short-circuit-proof, alternatively 8 individual outputs, e.g. for lamps
- Combined Bluetooth/WiFi wireless module: BT 2.1 EDR+ 4.0, WiFi 802.11 b/g/n
- Infrared receiver diode
- USB 2.0 client: Mini USB port for connection with the PC
- USB Host port: USB-A port for fischertechnik USB camera, USB sticks, etc.
- Camera interface: via USB host, Linux camera drivers integrated in the operating system
- 10-pole pin row to increase inputs and outputs as well as I2C-port
- Integrated loudspeaker
- Integrated real-time clock with replaceable buffer battery for recording the measured values in a defined period
- Linux based Open-Source operating system
- Programming possible with ROBO Pro, C-Compiler, PC-Library, etc.
- Power supply: 9V DC 3.45 mm port, or fischertechnik 2.5 mm ports
Software: C/C++ API programming interface:
The software application is written in C/C++ and is loaded on the controller in the ready-to-start status.
The corresponding C/C++ library and the API will be published on Github upon the official release of this model in the summer of 2019: https://github.com/fischertechnik
This library can be used to write customized C/C++ programs for the Training Factory Industry 4.0.
The connection to the fischertechnik cloud is established via the WiFi router supplied and integrated into the Training Factory Industry 4.0. We recommend using the web browsers such as Chrome or Firefox. The cloud can be used via a personal access that is created once (www.fischertechnik-cloud.com).
The cloud servers are located in Germany and ensure that strict European requirements regarding the storage of data are applicable. Personal data is protected in an account with password access that uses extremely secure "OAuth2" industry standard. All data sent to the cloud is transmitted encrypted with certificates (https standard, green lock in web browser).
The dashboard can be accessed and operated via mobile devices such as tablets and smartphones as well as laptops and PCs. It enables platforms to be displayed from three different perspectives:
- Customer view
- Supplier view
- Production view
The customer view shows a webshop interface with a shopping cart, where you can order a workpiece and track the current status of the order in the shopping cart. This process is displayed on the interface for the customer so that he/she is informed about the status of his/her order.
The process of ordering the raw material is displayed and visualized in the supplier view.
The factory status, the production process, the stock, the NFC/RFID reader and the sensor values can be queried in the production view. In addition, the camera that monitors the production line can also be controlled here. All these functions are controlled within a window and actuated via the menu.
In Factory status, the status of the respective module is visualized via a traffic light display. If a fault occurs in production, it is acknowledged via a button after the cause has been rectified and production is continued.
The individual manufacturing steps are visually simplified using connected nodes and represented in the Production process view. The currently active node (= production module) lights up green or red when the respective process step is being processed live or there is an error and is waiting to be corrected.
The Inventory production view visualizes the current inventory of workpieces including minimum and maximum stock. A reorder point procedure is stored. This production view is used exclusively for visualization.
The production view of the NFC/RFID reader displays the workpiece data and can be used to read or delete workpieces manually. The raw data of the NFC tags can be read using a standard NFC app from mobile devices with NFC readers. Each workpiece has its own unique ID and displays the following data: Status, color and timestamp from delivery to dispatch.
The camera is also controlled via the production view and the read values of the environment sensor can also be viewed here.
In addition to all technical documents available at www.fischertechnik.de, the fischertechnik eLearning portal also contains a didactic accompanying booklet with detailed operating instructions as well as vital and helpful training and teaching content specially developed for the Training Factory Industry 4.0. The technical specifications and explanations for the individual modules of the learning factory are also listed. The accompanying booklet can be viewed at www.fischertechnik.de/en/service/elearning.
If you need any consultation or have any questions, you can contact fischertechnik in Germany Monday to Friday by phone (Tel. +49 74 43/12-42 93) and by email (email@example.com). Their service consultants will be glad to help you quickly. You can also go through the FAQs on fischertechnik.de for further information.
All fischertechnik training and simulation models are delivered in a particularly sturdy shipping carton, which guarantees a safe delivery across the world. In addition, all deliveries are insured against transport damage at our expense.
You can request for a maintenance service for all training and simulation models to be able to use the full range of functions reliably over many years. If needed, please contact fischertechnik directly for more information. We will be happy to make you an all-inclusive offer.
Each fischertechnik component can be purchased and replaced individually even years after your model purchase. In this way it is guaranteed that you always have a fully functional model in operation. The complete overview of individual parts can be found at www.studica.com/FischertechnikSpareParts.
fischertechnik training models are delivered pre-assembled as compact functional models. For this purpose, they are fixed onto wooden boards using screws to increase stability, so that mobility to carry the models with you for projects, exhibitions or trade fairs is guaranteed at all times. The screws can be easily loosened to take advantage of the flexibility and modular design of fischertechnik, if an independent conversion and extension of further models is required at any time.
fischertechnik has been a "Made in Germany" brand for over 50 years and continues its manufacturing in Germany. Profit from the excellent high quality which makes fischertechnik models extremely durable and well-known.