Apparatus and method for producing and further processing of slabs

The invention claimed is: 1. An apparatus ( 100 ) for producing and further processing of slabs ( 3 ) of a metal, comprising: a continuous casting apparatus ( 1 ), which is designed to produce a cast strand(S) and to transport it in a transport direction (T); a cutting device ( 4 ), which is arranged behind the continuous casting apparatus ( 1 ), as seen in the transport direction (T), and is designed to cut the cast strand (S) into slabs ( 3 ); a walking-beam furnace ( 2 ) which is arranged behind the cutting device ( 4 ), as seen in the transport direction (T), and which is configured to heat the slabs ( 3 ) to a forming temperature that is suitable for forming the slabs ( 3 ) in a rolling mill ( 12 ); a slab storage facility ( 11 ); a heating device ( 18 ) for preheating the slabs ( 3 ) that have undergone cooling in the slab storage facility ( 11 ); a first route (R 1 ) and a second route (R 2 ) implementing, at least in some portions, different process lines for the further processing of the slabs ( 3 ); and a process control system ( 8 ), which is designed to make a route decision individually for each slab, which route decision assigns a corresponding slab ( 3 ) to the first route (R 1 ) or to the second route (R 2 ), and to initiate further processing of the corresponding slab ( 3 ) along the assigned route (R 1 , R 2 ), wherein the first route (R 1 ) is configured to insert the corresponding slab ( 3 ) into the furnace ( 2 ) substantially directly after cutting by the cutting device ( 4 ) such that the corresponding slab ( 3 ) is inserted into the furnace ( 2 ) with a surface temperature of 600° C. or more, wherein the second route (R 2 ) is configured to feed the corresponding slab ( 3 ) to the slab storage facility ( 11 ) for intermediate storage after cutting by the cutting device ( 4 ), to preheat the corresponding slab ( 3 ) that has undergone cooling in the slab storage facility ( 11 ) to a temperature of 600° C. or more, and to discharge the corresponding slabs ( 3 ) in front of the furnace ( 2 ), and wherein the process control system ( 8 ) is designed to make the route decision for the slab ( 3 ) based on a planned end use of the slab ( 3 ). 2. The apparatus ( 100 ) according to claim 1 , wherein the forming temperature is in a range from 1,000° C. to 1,300° C. 3. The apparatus ( 100 ) according to claim 2 , wherein the process control system ( 8 ) is configured to assign the corresponding slab ( 3 ) to the first route (R 1 ) if the surface temperature is 850° C. or more. 4. The apparatus ( 100 ) according to claim 3 , wherein no deburring device is provided on the first route (R 1 ) between the cutting device ( 4 ) and the furnace ( 2 ). 5. The apparatus ( 100 ) according to claim 2 , wherein the process control system ( 8 ) is configured to assign the corresponding slab ( 3 ) to the second route (R 2 ) if the surface temperature is less than 850° C. 6. The apparatus ( 100 ) according to claim 2 , further comprising a rolling mill ( 12 ) with one or more rolling stands ( 13 ), which is arranged behind the furnace ( 2 ) when viewed in the transport direction (T). 7. The apparatus ( 100 ) according to claim 2 , further comprising a forming unit which is arranged behind the furnace ( 2 ) when viewed in the transport direction (T), wherein the forming unit comprises one or more descaling devices ( 16 ) and/or one or more heating apparatuses ( 6 ) and/or one or more inspection systems ( 21 ) and/or a welding device ( 22 ) for welding together successive slabs ( 3 ) or intermediate strips. 8. The apparatus ( 100 ) according to claim 1 , wherein the heating device ( 18 ) is designed to preheat slabs ( 3 ) that have undergone cooling in the slab storage facility ( 11 ) to a temperature of 850° C. or more. 9. The apparatus ( 100 ) according to claim 1 , wherein the process control system ( 8 ) is designed to make the route decision for the slab ( 3 ) taking into account measured or calculated surface temperature and a steel grade of the slab ( 3 ). 10. The apparatus ( 100 ) according to claim 1 , wherein the cutting device ( 4 ) comprises an inspection system ( 7 ) or an inspection system ( 7 ) is arranged substantially directly behind the cutting device ( 4 ) and is communicatively coupled to and designed with the process control system ( 8 ), in order to detect one or more physical quantities of the slabs ( 3 ) and transmit them to the process control system ( 8 ), wherein the process control system ( 8 ) is designed to use data received from the inspection system ( 7 ) for the route decision. 11. The apparatus ( 100 ) according to claim 1 , wherein one or more heating apparatuses ( 6 ) are arranged upstream of the cutting device ( 4 ) or of a decoupler ( 5 ) and/or downstream of the cutting device ( 4 ), wherein the heating apparatuses ( 6 ) are implemented inductively, with gas burners or electrically. 12. The apparatus ( 100 ) according to claim 1 , wherein the apparatus is designed for producing and further processing of medium slabs ( 3 ) with a slab thickness in a range of 140 to 200 mm. 13. The apparatus ( 100 ) according to claim 1 , wherein the continuous casting apparatus ( 1 ) comprises an ingot mold (la) that is designed to receive molten metal and discharge the cast strand(S) downwardly, wherein the ingot mold ( 1 c ) comprises two facing plane-parallel plates that define a thickness of the cast strand in a range of 140 to 200 mm. 14. The apparatus ( 100 ) according to claim 1 , wherein the cutting device ( 4 ) comprises pendulum shears. 15. The apparatus ( 100 ) according to claim 1 , wherein the route decision is a function of a measured or calculated surface temperature and a silicon content of the corresponding slab ( 3 ).