Smart Factories

Smart Factories

The "Industry 4.0" initiative describes the implementation of so-called smart factories, which includes intelligent interaction between human beings and machinery. It involves the integration of intelligent workpieces, manufacturing equipment and flexible value-adding procedures into the production process. This seeks to achieve distributed production with a maximum of flexibility at a minimum of cost. In a smart factory, systems keep people informed about production and status and provide assistance with the control and monitoring of the process.

A smart factory is characterised by the communication between products and the machinery which makes them. The product retains information about its own manufacture in machine-readable form, on an RFID chip for example. With the help of this data, the passage of the product through the manufacturing system and the individual steps in its manufacture can be controlled.

The available sets are aimed at various levels:

  • Smart factory foundation set: This encompasses all the topics needed to understand and implement a smart factory.
    • Bus systems play a key role in the communication aspect. Aspects such as cyber-physical systems (CPS) or flexibility of plant only become possible when bus systems are employed.
    • RFID can be seen as being at the core of production in a smart factory. An RFID chip is used to process the requisite data so that the items being worked upon have their own memory. They ‘know’ when the process begins how they are supposed to look at the end of it and they themselves take control of the processing stations to ensure that they are processed in the right way.
    • The knowledge learned so far is put to use in a small, initial smart factory application. A compact station is used to cover the topic. 
  • Smart factory basic set: The basic set encompasses a complete production line on which production of a workpiece is controlled with the help of RFID tags. A three-part workpiece can be assembled in eight different combinations. 
  • Smart factory extension sets: Should a manufacturing plant be controlled and monitored solely from its own control centre or can that also be handled remotely by means of a smart phone, tablet or laptop? Should production be treated in a more intelligent way?
    • A production list with memory for up to eight products.
    • A variable productions sequence which depends on the raw materials available.
    • Statistical monitoring and fault analysis

              These capabilities are provided by extension packages with various levels of expansion.