Coolant nozzle for cooling a metal strand in a continuous casting installation

The invention claimed is: 1. A coolant nozzle for cooling a metallic strand in a continuous casting plant, comprising: a mouthpiece which is disposed on a nozzle exit end and through which liquid coolant from the coolant nozzle can exit; an infeed configured as a tube-in-tube system comprising; a first tube which is an inner tube for the control air, and a second tube which is an outer tube, disposed substantially concentric with the inner tube and is for the liquid coolant; in a throughflow direction, the infeed is disposed ahead of the mouthpiece, and the infeed has an infeed exit end, toward which control air is capable of being guided to the infeed exit end through the first tube of the infeed, the infeed exit end is configured as a mouthpiece receptacle to which the mouthpiece is screw-fittable; and the liquid coolant is capable of being fed in the throughflow direction through the second tube of the infeed and then into the mouthpiece via the infeed exit end; a switchover valve which is integrated in the infeed, is disposed on the infeed exit end, and is pneumatically activatable while using the control air, the switchover valve having a switching element which is a control piston the infeed exit end is configured as a valve seat for a switching element of the switchover valve, and the switchover valve includes, the control piston of the seat valve; and the switchover valve comprises a seat valve, the switchover valve is configured and operable for controlling the feeding of the liquid coolant into the mouthpiece, and the valve is either opened or closed as a function of the position of the switching element. 2. The coolant nozzle as claimed in claim 1 , further comprising at least one of the first tube and/or the second tube is configured of multiple parts. 3. The coolant nozzle as claimed in claim 2 , wherein the multiple parts are configured in such a manner that the parts thereof are capable of being screw-fitted or welded to one another. 4. The coolant nozzle as claimed claim 1 , further comprising the mouthpiece is configured to be releasably connected to the coolant nozzle. 5. The coolant nozzle as claimed in claim 1 , further comprising a material of the switching element including the control piston, and a material of the valve seat are mutually adapted, such that the valve seat has one of a lesser hardness than the switching element, or the valve seat has another greater hardness than the switching element, wherein the part having the lesser hardness is annealed. 6. The coolant nozzle as claimed in claim 1 , further comprising a connector block which is screw-fittable to the infeed and which has a first connector for the control air and/or a second connector for the liquid coolant. 7. The coolant nozzle as claimed in claim 6 , further comprising the connector block has a first conduit, the first connector being connectable to the first inner tube of the infeed while using the first conduit. 8. The coolant nozzle as claimed in claim 7 , further comprising the connector block has a second conduit, wherein the second connector is connectable to the second tube of the infeed while using the second conduit. 9. The coolant nozzle as claimed in claim 1 , further comprising the infeed is configured to be rectilinear, or bent, having at least one bend. 10. The coolant nozzle as claimed in claim 9 , wherein having at least one bend along a length thereof. 11. The coolant nozzle as claimed in claim 1 , further comprising the control air is an instrument air. 12. A coolant nozzle for cooling a metallic strand in a continuous casting plant, comprising: a mouthpiece which is disposed on a nozzle exit end and through which liquid coolant from the coolant nozzle can exit; an infeed configured as a tube-in-tube system comprising; a first tube which is an inner tube for the control air, and a second tube which is an outer tube, disposed substantially concentric with the inner tube and is for the liquid coolant; in a throughflow direction, the infeed is disposed ahead of the mouthpiece, and the infeed has an infeed exit end, toward which control air is capable of being guided to the infeed exit end through the first tube of the infeed, and the liquid coolant is capable of being fed in the throughflow direction through the second tube of the infeed and then into the mouthpiece via the infeed exit end; a switchover valve, which is integrated in the infeed, is disposed on the infeed exit end, and is pneumatically activatable while using the control air, the switchover valve having a switching element which is a control piston; the switchover valve comprises a seat valve, the switchover valve is configured and operable for controlling the feeding of the liquid coolant into the mouthpiece, and the valve is either opened or closed as a function of the position of the switching element and a bellows configured and operable to seal the control piston. 13. The coolant nozzle as claimed in claim 12 , further comprising the bellows is disposed concentric with and on the inner tube, and the bellows is disposed on a second part of the inner tube that is configured as a bellows detent and the bellows is configured and operable to be guided axially relative to the inner tube relative to the bellows detent. 14. The coolant nozzle as claimed in claim 6 , wherein the bellows is a corrugated bellows. 15. A cooling installation for cooling a metallic strand in a continuous casting plant comprising: a plurality of nozzle units which are disposed in succession in a strand conveying direction to extend transversely to the strand conveying direction, each of the nozzle units having at least one first coolant nozzle, and at least one second coolant nozzle, wherein the first and second coolant nozzles are as claimed in claim 12 ; and the first coolant nozzles of the plurality of nozzle units are configured for being supplied with the control air by a first common control air infeed; the second coolant nozzles of the plurality of nozzle units are configured for being supplied with the control air by a second common control air infeed. 16. The cooling installation as claimed in claim 15 , further comprising a first control valve for the control air supply in the first common control air infeed that is disposed in the first common control air infeed; and a second control valve for the control air supply in the second common control air infeed that is disposed in the second common control air infeed. 17. A continuous casting plant having a cooling installation as claimed in claim 15 .