Rolling stand for tubes or rounds

The invention claimed is: 1. A rolling mill for tubes or rounds, comprising: two or more rolling stands for tubes or rounds, each of the two or more rolling stands comprising three or more rolling rolls defining a rolling section of the rolling stand that is coaxial to a rolling axis of the rolling stand, each roll having: a respective rolling surface defining a respective straight line of symmetry passing through the rolling axis and through a center of symmetry of the respective surface thus determining a first half and a second half of the respective surface, two gap zones having a radial distance of value H2 from the rolling axis, each gap zone being located at an adjacent roll, and a groove bottom zone having a radial distance of value H1 from the rolling axis at an intersecting point of the respective surface with the respective straight line of symmetry, wherein there are provided, for each roll on said respective rolling surface, at least five alternating pushing zones which push the tubes or rounds, a first pushing zone of which is arranged on the respective straight line of symmetry at said groove bottom zone, a second pushing zone is circumferentially arranged in the first half of the respective surface between the respective groove bottom zone and the adjacent gap zone, at an angular distance of value αR from the respective straight line of symmetry, a fourth pushing zone is circumferentially arranged in the first half of the respective surface between the respective groove bottom zone and the adjacent gap zone, at an angular distance of value αRR from the respective straight line of symmetry, a third pushing zone is circumferentially arranged in the second half of the respective surface between the respective groove bottom zone and the adjacent gap zone, at an angular distance of value αL from the respective straight line of symmetry, and a fifth pushing zone is circumferentially arranged in the second half of the respective surface between the respective groove bottom zone and the adjacent gap zone, at an angular distance of value αLL from the respective straight line of symmetry; and wherein, at each of said at least five pushing zones, there is a point of relative minimum of a curve Rpass=H(α) representing the shape of the rolling surface along a plane orthogonal to the rolling axis, where H(α) is the radial distance of the rolling surface from the rolling axis in function of the angular distance a from the respective straight line of symmetry; and an end rolling stand with a round rolling section. 2. The rolling mill according to claim 1 , wherein said second pushing zone, has a radial distance having value HR from the rolling axis and said third pushing zone has a radial distance of value HL from the rolling axis, and wherein said values HR and HL are equal to or greater than the value H1 and less than the value H2. 3. The rolling mill according to claim 2 , wherein the angles αR and αL have an equal value to one another. 4. The rolling mill according to claim 1 , wherein the angles αR αL have an equal absolute value to one another and the angles αRR, αLL have an equal absolute value to one another. 5. The rolling mill according to claim 1 , comprising five rolling rolls. 6. The rolling mill according to claim 1 , comprising three rolling rolls. 7. The rolling mill according to claim 1 , comprising four rolling rolls.