Modular industrial automation appliance and method for transmitting messages via a backplane bus system of the modular industrial automation appliance

What is claimed is: 1. A modular industrial automation appliance comprising: a backplane bus system; a plurality of functional modules connected to the backplane bus system, each of the functional modules comprising: a communication network adapter which connects to a respective separate IP subnetwork which is external to each of the plurality of functional modules; a functional unit for implementing a communication protocol stack; and a bridge element linked to the communication network adapter and having a first service access point for the functional unit for implementing the communication protocol stack and a second service access point associated with the backplane bus system, the communication protocol stacks of the functional modules comprising transport functions, and wherein routing functions being excepted from the communication protocol stacks of the functional modules; and a router module connected to the backplane bus system and comprising: a communication network adapter which connects to a respective separate IP subnetwork which is external to the router module; a functional unit for implementing a router communication protocol stack, the functional unit being linked to the communication network adapter; and for each functional module a respective virtual communication network adapter that links the functional unit for implementing the router communication protocol stack to the second service access point of the respective functional module via the backplane bus system; wherein only the communication protocol stack of the router module comprises routing functions. 2. The modular industrial automation appliance as claimed in claim 1 , wherein the communication protocol stacks of the functional modules and the router protocol stack are IP stacks, particularly Transmission Control Protocol/Internet Protocol (TCP/IP) stacks or User Datagram Protocol/Internet Protocol (UDP/IP) stacks. 3. The modular industrial automation appliance as claimed in claim 2 , wherein each communication network adapter which connects to a respective separate IP subnetwork comprises a transmission and reception unit and a functional unit for controlling access to a communication medium. 4. The modular industrial automation appliance as claimed in claim 1 , wherein each communication network adapter which connects to a respective separate IP subnetwork comprises a transmission and reception unit and a functional unit for controlling access to a communication medium. 5. The modular industrial automation appliance as claimed in claim 1 , wherein the bridge element comprises a Media Access Control (MAC) bridge. 6. The modular industrial automation appliance as claimed in claim 5 , wherein the MAC bridges is implemented via software. 7. The modular industrial automation appliance as claimed in claim 1 , wherein the bridge element comprises a message filter unit disposed at the second service access point. 8. The modular industrial automation appliance as claimed in claim 1 , wherein the first and second service access points have a respective associated dedicated Media Access Control (MAC) address. 9. The automation appliance as claimed in claim 1 , wherein the functional unit for implementing the communication protocol stack is implemented via software. 10. The automation appliance as claimed in claim 1 , wherein the functional module comprises at least one of (i) a central unit of the modular automation appliance and (ii) a communication module of the modular automation appliance. 11. A method for transmitting messages via a backplane bus system of a modular industrial automation appliance, the method comprising: forwarding messages received at communication network adapters of functional modules connected to respective separate IP subnetworks which is external to the functional modules in accordance with their respective destination Media Access Control (MAC) address to at least one of (i) a first service access of a bridge element of a respective functional module and (ii) a second service access point of the bridge element of the respective functional module processing messages forwarded to the first service access point by the functional unit to implement a communication protocol stack of the respective functional module; forwarding messages forwarded to the second service access point to a respectively associated virtual communication network adapter of a router module, which connects to a respective separate IP subnetwork which is external to the router module, via the backplane bus system and processing the forwarded messages by the functional unit for implementing the router communication protocol stack. 12. The method as claimed in claim 11 , further comprising: transmitting messages emanating from functional units for implementing the communication protocol stack of the respective functional module in accordance with their respective destination MAC address to at least one of (i) the communication network adapter of the respective functional module and (ii) the respectively associated virtual communication network adapter of the router module. 13. The method as claimed in claim 12 , further comprising: transmitting messages emanating from the functional unit for implementing the router communication protocol stack in accordance with their respective destination MAC address to at least one of (i) the communication network adapter and (ii) the functional unit for implementing the communication protocol stack of the respective functional module via the respectively associated virtual communication network adapter. 14. The method as claimed in claim 11 , further comprising: transmitting messages emanating from the functional unit for implementing the router communication protocol stack in accordance with their respective destination MAC address to at least one of (i) the communication network adapter and (ii) the functional unit for implementing the communication protocol stack of the respective functional module via the respectively associated virtual communication network adapter.