Integrated planning of production and/or maintenance plans

The invention claimed is: 1. A method for planning production and/or maintenance of a raw materials industry plant (ANL), the method comprising: controlling the raw materials industry plant (ANL) by an automation system and executing a sequence of production orders under control by the automation system, producing, by the raw materials industry plant (ANL), a number of output products (Ai) from a number of input products (Ei) per production order; using a production planning system with a time horizon of at least several days, for determining future production planning data (Pi), specifying by the production planning system at which times selected input products (Ei) should be fed to the raw materials industry plant (ANL), which output products (Ai) should be produced by the raw materials industry plant (ANL) from the input products (Ei), and at which times the output products (Ai) should be produced by the raw materials industry plant (ANL); specifying by the production planning system the future production planning data (Pi) to the automation system; receiving by a state monitoring system from the automation system and/or via sensor devices directly from the raw materials industry plant (ANL) measurement data (M) and/or data derived from the measurement data (M); determining from the measurement data (M) and/or data derived from the measurement data (M) previous states (Z 1 ) of components of the raw materials industry plant (ANL) and furthermore, with additional utilizing of the future production planning data (Pi) or data derived from the future production planning data (Pi) determining future predicted states (Z 1 ) of the components of the raw materials industry plant (ANL); receiving by a quality determination system different from the automation system the measurement data (M) and/or data derived from the measurement data (M) from the automation system and/or via the sensor devices directly from the raw materials industry plant (ANL); receiving by the quality determination system the previous and the future predicted states (Z 1 ) of the components of the raw materials industry plant (ANL) from the state monitoring system and receiving the future production planning data (Pi) from the production planning system, and based on the foregoing, determining by the quality determination system states (Z 2 ) of the output products (Ai) produced by the raw materials industry plant (ANL) and of the output products (Ai) to be produced, and/or determining by the quality determination system past and future states (Z 3 ) of the raw materials industry plant (ANL) as a whole; and receiving, by a maintenance planning system, the previous and the future predicted states (Z 1 ) of the components of the raw materials industry plant (ANL) from the state monitoring system and receiving the states (Z 2 ) of the output products (Ai) produced by the raw materials industry plant (ANL) and the states of the output products (Ai) to be produced from the quality determination system and/or the past and future states (Z 3 ) of the raw materials industry plant (ANL) as a whole; taking into account these data, determining maintenance planning data (W) for the raw materials industry plant (ANL) and/or receiving by the production planning system the previous and the future predicted states (Z 1 ) of the components of the raw materials industry plant (ANL) from the state monitoring system and receiving from the quality determination system the states (Z 2 ) of the output products (Ai) produced by the raw materials industry plant (ANL) and the output products (Ai) to be produced and/or past and future states (Z 3 ) of the raw materials industry plant (ANL) as a whole, and taking this into account when determining the future production planning data (Pi); and wherein the future production planning data (Pi) determines limiting values to make the raw materials industry plant (ANL) to produce qualified the number of output products (Ai) based also on the maintenance planning data (W). 2. The method as claimed in claim 1 , further comprising: receiving by the maintenance planning system the future production planning data (Pi) from the production planning system and, taking the future production planning data (Pi) into account when determining the maintenance planning data (W) and/or the production planning system, receiving the maintenance planning data (W) from the maintenance planning system and taking the maintenance planning data (W) into account when determining the future production planning data (Pi). 3. The method as claimed in claim 1 , further comprising: taking into account by the quality determination system the future production planning data (Pi) and/or the future predicted states (Z 1 ) of the components of the raw materials industry plant (ANL), and determining limiting values (L 1 ) for dynamic settings and/or limiting values (L 2 ) for resulting states (Z 1 ) of the components of the raw materials industry plant (ANL); and specifying by the quality determination system the limiting values (L 1 ) for the dynamic settings to the automation system and/or the limiting values (L 2 ) for the resulting states (Z 1 ) to the state monitoring system as the limiting values to be maintained. 4. The method as claimed in claim 3 , further comprising: transmitting, by the maintenance planning system, the maintenance planning data (W) to the quality determination system, and also taking into account, by the quality determination system, the maintenance planning data (W) when determining the limiting values (L 1 ) for the dynamic settings and/or the limiting values (L 2 ) for the resulting states (Z 1 ). 5. The method as claimed in claim 1 , further comprising executing the method for the planning of production and/or maintenance of the raw materials industry plant (ANL) in an automated iterative manner. 6. The method as claimed in claim 5 , executing the method for the planning of production and/or maintenance continuously or executing that method upon request by a person. 7. The method as claimed in claim 1 , further comprising: referring to the state (Z 2 ) of one of the output products (Ai) produced by the raw materials industry plant (ANL), determining by the quality determination system for a further raw materials industry plant (ANL′) to which the produced output product (Ai) is fed as input product (Ei′), thus producing a further processed product (Ai′), determining bounds for the treatment of this output product (Ai) in the further raw materials industry plant (ANL′) and specifying the bounds to an automation system or a production planning system for the further raw materials industry plant (ANL′). 8. The method as claimed in claim 7 , further comprising: using the quality determination system: for checking, by reference to the state (Z 2 ) of one of the output products (Ai) produced by the raw materials industry plant (ANL), whether this output product (Ai) maintains predefined quality parameters for this output product (Ai); in response to the predefined quality parameters are maintained by this output product (Ai) releasing an already planned further processing of this output product (Ai) by the further raw materials industry plant (ANL′); and in response to the predefined quality parameters are not maintained by this output product (Ai), determining a modified further processing by the further raw materials industry plant (ANL′) in addition to the determining of the bounds for the treatment of this output product (Ai) in the further raw materials industry plant (ANL′), taking into account the actual quality parameters of this output product (Ai). 9. The method as claimed in claim 8 , further comprising: transmitting by the quality determinat