Cooling unit of a laminar cooling device

The invention claimed is: 1. A cooling group for a laminar cooling apparatus arrangeable above and below a strip to be cooled in order to apply a cooling liquid to the strip, comprising: a central inflow via which the cooling liquid is supplied; a distributor tube that is supplied with the cooling liquid from the central inflow; a number of application units that are supplied with the cooling liquid from the distributor tube; a number of cooling nozzles arranged on each of the application units for applying the cooling liquid to the strip; a volume flow-regulating valve arranged in or in front of the central inflow and configured so as to conduct a defined, variable volume of the cooling liquid through the central inflow per unit of time, wherein setting of the volume flow-regulating valve is determined from a relationship {dot over (Q)} target =Σ i=1 n {dot over (Q)} target (4.n) , where {dot over (Q)} target is a total target volume flow rate, and {dot over (Q)} target (4.n) is a target partial volume flow rate in the individual application units; and a closed loop control system configured to continuously regulate the target volume flow ({dot over (Q)} target ) by changing the setting of the volume flow regulating valve, wherein the closed loop control system includes a throughflow meter for measuring the through flow through the central inflow, and a comparator configured to compare a measured actual value with the target value of the volume flow rate. 2. The cooling group for a laminar cooling apparatus according to claim 1 , wherein the cooling group is configured to conduct through the laminar cooling apparatus arranged above or below the strip to be cooled a volume flow rate of the cooling liquid of between 30 and 200 m 3 /m 2 h per strip side. 3. The cooling group for a laminar cooling apparatus according to claim 1 , wherein a ratio between a cross section of the distributor tube and a cross section of each of the application units is at least 1.0. 4. The cooling group for a laminar cooling apparatus according to claim 3 , wherein the ratio between the cross section of the distributor tube and the cross section of each of the application units is at least 1.5. 5. The cooling group for a laminar cooling apparatus according to claim 1 , wherein, when the laminar cooling apparatus is arranged above the strip to be cooled, said laminar cooling apparatus is designed so that a ratio of flow speed in the distributor tube to flow speed in the application units is in the range between 0.6 and 3.0. 6. The cooling group for a laminar cooling apparatus according to claim 1 , wherein, when the laminar cooling apparatus is arranged below the strip to be cooled, said laminar cooling apparatus is designed so that a ratio of flow speed in the distributor tube to flow speed in the application units is in the range between 0.2 and 1.0. 7. The cooling group for a laminar cooling apparatus according to claim 1 , wherein a Reynolds number in the central inflow, in the distributor tube and/or and in the application units lies between 2000 and 3000. 8. The cooling group for a laminar cooling apparatus according to claim 1 , wherein the cooling group is configured to maintain pressure in an application unit arranged above the strip above 0.05 bar. 9. The cooling group for a laminar cooling apparatus according to claim 1 , wherein the cooling group is configured to maintain pressure in an application unit arranged below the strip above 0.025 bar. 10. The cooling group for a laminar cooling apparatus according to claim 1 , wherein the closed loop controlled system is configured to regulate the target volume flow rate({dot over (Q)} target ) by taking into consideration a correction value for throughflow rate setting. 11. The cooling group for a laminar cooling apparatus according to claim 1 , wherein at least six application units are arranged in succession in a conveying direction of the strip. 12. The cooling group for a laminar cooling apparatus according to claim 11 , wherein at least eight application units are arranged in succession in a conveying direction of the strip.