Cooling tank for rails

The invention claimed is: 1. A cooling tank, defining a longitudinal axis, for a thermal treatment of a rail head by immersion, comprising a volume adapted to be filled with a cooling fluid in which the rail head to be thermally treated can be immersed, said volume having a bottom, wherein the bottom is provided with only one single row of nozzles, arranged along said longitudinal axis and parallel to a symmetry plane of said volume, whereby jets of cooling fluid can be generated in said volume, wherein there is provided at least one pair of substantially reciprocally parallel longitudinal bulkheads, arranged in said volume substantially perpendicular to said bottom and symmetrically with respect to said single row of nozzles, configured to direct upwards and towards a center of the rail head said jets of cooling fluid, wherein adjustment means are provided in order to adjust a position of the longitudinal bulkheads in a vertical direction and/or to adjust a distance L between the two longitudinal bulkheads of said at least one pair, and wherein said, adjustment means for adjusting the position of the longitudinal bulkheads in a vertical direction comprise a plurality of flat support elements, each flat support element being arranged orthogonal to the longitudinal bulkheads and provided with two slits having a shape complementary to a shape of at least a part of a transversal section of the longitudinal bulkheads; and said longitudinal bulkheads are inserted in said slits of the flat support elements. 2. A cooling tank according to claim 1 , wherein the longitudinal bulkheads and the single row of nozzles extend along the entire longitudinal extension of the tank. 3. A cooling tank according to claim 1 , wherein the longitudinal bulkheads rest on the bottom. 4. A cooling tank according to claim 1 , wherein the longitudinal bulkheads are distanced from the bottom. 5. A cooling tank according to claim 1 , wherein a distance L between the longitudinal bulkheads is comprised in a range d≤L≤2d, where d is a diameter of the nozzles. 6. A cool tank according to claim 4 , wherein a distance G between the longitudinal bulkheads and the bottom is comprised in a range 0<G≤1.5L, where L is a distance between the longitudinal bulkheads. 7. A cooling tank according to claim 1 , wherein a height H of the longitudinal bulkheads is equal to H≥2L, where L is a distance between the longitudinal bulkheads. 8. A cooling tank according to claim 7 , wherein the height H of the longitudinal bulkheads is equal to four or five times the distance L between the longitudinal bulkheads. 9. A cooling tank according to claim 1 , comprising two or more longitudinal modules connected in succession to each other at ends thereof so as to define said volume. 10. A cooling tank according to claim 1 , comprising a further volume, arranged under the volume and communicating therewith by means of said single row of nozzles. 11. A cooling tank according to claim 10 , wherein there are provided one or more delivery manifolds, for an introduction of the cooling fluid into said further volume, provided with a bifurcation with two longitudinal stretches parallel to said symmetry plane, whereby the cooling fluid introduced into said further volume passes through the single row of nozzles into the volume. 12. A cooling tank according to claim 4 , wherein lower ends of said bulkheads are chamfered or comprise an end stretch bent outwards, inclined by an angle other than zero with respect to a bulkhead body and to the symmetry plane of the volume. 13. A cooling tank according to claim 1 , wherein the longitudinal bulkheads have a rectangular transversal section and a closed inner end of the slits is obtained at a distance equal to a distance G from a first base surface of the flat support elements, and wherein an open outer end of the slits is provided at a same height as one or more second base surfaces of the flat support elements, parallel to said first base surface. 14. A cooling tank according to claim 1 , wherein the longitudinal bulkheads have a body having a rectangular transversal section and an end stretch bent outwards with respect to said body, inclined by an angle other than zero with respect to said body and to the symmetry plane of the volume, and wherein the longitudinal bulkheads are provided with a plurality of slits, obtained at the two slits provided in each of the flat support elements. 15. A cooling tank according to claim 14 , wherein a closed inner end of the slits is made at a first distance from a first base surface of the support elements, and a first end of the longitudinal bulkheads, totally inserted into the slits, is at a second distance, shorter than said first distance, from the first base surface. 16. A cooling tank according to claim 13 , wherein said distance is comprised in the range 0<G≤1.5L, where L is the distance between the longitudinal bulkheads. 17. A cooling tank according to claim 15 , wherein said second distance is comprised in the range 0<G≤1.5L, where L is the distance between the longitudinal bulkheads. 18. A cooling tank according to claim 6 , wherein lower ends of said longitudinal bulkheads are chamfered or comprise an end stretch bent outwards, inclined by an angle other than zero with respect to a bulkhead body and to the symmetry plane of the volume.