Rolling stand for producing rolled strip

What is claimed is: 1. A rolling stand for producing a rolled strip, comprising: a plurality of rolls comprising working rolls supported on at least one of (a) one or more supporting rolls and (b) one or more intermediate rolls, wherein: at least some of the plurality of rolls are axially moveable relative to one another, and for a pair of rolls including a particular supporting roll and another roll of the plurality of rolls, the other roll of the plurality of rolls being adjacent to the particular supporting roll, each roll of the pair of rolls is configured to have a cross-section taken along a central longitudinal axis of the roll with a surface of the roll having a curved contour with respect to the central longitudinal axis of the roll that runs over an entire effective barrel length in a non-loaded state of the pair of rolls, the particular supporting roll is configured to have a contour predefined by a contour function formed from a superposition of (a) a first contour function that runs in a manner complementary to an adjacent working roll in a non-loaded state of the particular supporting roll and the adjacent working roll and in a non-displaced state of the particular supporting roll and the adjacent working roll where the particular supporting roll and the adjacent working roll are not displaced axially relative to one another with (b) a superposition function that is concave or convex in relation to a rotational axis of the particular supporting roll in the non-loaded state and in the non-displaced state of the particular supporting roll and the adjacent working roll, the superposition function having a nonzero value at least along the entire length of the particular supporting roll except for a center of the entire length of the particular supporting roll, the particular supporting roll has a first barrel end and a second barrel end and the adjacent working roll has a first barrel end and a second barrel end, in the non-displaced state of the particular supporting roll and the adjacent working roll, the first barrel end of the particular supporting roll is configured not to be aligned with the first barrel end of the adjacent working roll or the second barrel end of the adjacent working roll and the second barrel end of the particular supporting roll is configured not to be aligned with the first barrel end of the adjacent working roll or the second barrel end of the adjacent working roll, and the first contour function is formed from contour portions which are alternately concavely and convexly curved, along the rotational axis of the particular supporting roll, and wherein the contour function is defined by a trigonometric function. 2. The rolling stand of claim 1 , wherein the superposition function is a concave superposition function, and wherein the contour function of the particular supporting roll is formed by subtraction of the concave superposition function from the first contour function. 3. The rolling stand of claim 1 , wherein the superposition function is a convex superposition function, and wherein the contour function of the particular supporting roll is formed by addition of the convex superposition function to the first contour function. 4. The rolling stand of claim 1 , wherein the superposition function is formed by a function that is monotonic on both sides and symmetrical with respect to a barrel center. 5. The rolling stand of claim 1 , wherein the superposition function is formed by a trigonometric function. 6. The rolling stand of claim 1 , wherein the contour of the supporting roll has a marginal chamfer in a marginal region of the particular supporting roll. 7. The rolling stand of claim 1 , wherein the contour of the particular supporting roll, in the non-loaded state and in the non-displaced state of the particular supporting roll and the adjacent working roll, is such that an increasing gap between the particular supporting roll and the adjacent working roll is formed as a distance from the center of the entire length of the particular supporting roll increases. 8. The rolling stand of claim 1 , wherein the inclusion of the superposition function in the contour function of the particular supporting roll makes the pressure distribution between the supporting roll and the adjacent working roll more uniform than if the superposition function was not included in the contour function of the particular supporting roll. 9. A rolling stand for producing a rolled strip, comprising: a plurality of rolls comprising working rolls supported on at least one of (a) one or more supporting rolls and (b) one or more intermediate rolls, wherein: at least some of the plurality of rolls are axially moveable relative to one another, and for a pair of rolls including a particular supporting roll and another roll of the plurality of rolls, the other roll of the plurality of rolls being adjacent to the particular supporting roll, each roll of the pair of rolls is configured to have a cross-section taken along a central longitudinal axis of the roll with a surface of the roll having a curved contour with respect to the central longitudinal axis of the roll that runs over an entire effective barrel length in a non-loaded state of the pair of rolls, the particular supporting roll is configured to have a contour predefined by a contour function formed from a superposition of (a) a first contour function that runs in a manner complementary to an adjacent working roll in a non-loaded state of the particular supporting roll and the adjacent working roll and in a non-displaced state of the particular supporting roll and the adjacent working roll where the particular supporting roll and the adjacent working roll are not displaced axially relative to one another with (b) a superposition function that is concave or convex in relation to a rotational axis of the particular supporting roll in the non-loaded state and in the non-displaced state of the particular supporting roll and the adjacent working roll, the superposition function having a nonzero value at least along the entire length of the particular supporting roll except for a center of the entire length of the particular supporting roll, the particular supporting roll has a first barrel end and a second barrel end and the adjacent working roll has a first barrel end and a second barrel end, in the non-displaced state of the particular supporting roll and the adjacent working roll, the first barrel end of the particular supporting roll is configured not to be aligned with the first barrel end of the adjacent working roll or the second barrel end of the adjacent working roll and the second barrel end of the particular supporting roll is configured not to be aligned with the first barrel end of the adjacent working roll or the second barrel end of the adjacent working roll, and the first contour function is formed from contour portions which are alternately concavely and convexly curved, along the rotational axis of the particular supporting roll, and wherein the contour function is defined by a polynomial function. 10. The rolling stand of claim 9 , wherein the superposition function is formed by a polynomial function. 11. The rolling stand of claim 9 , wherein the superposition function is a concave superposition function, and wherein the contour function of the particular supporting roll is formed by subtraction of the concave superposition function from the first contour function. 12. The rolling stand of claim 9 , wherein the superposition function is a convex superposition function, and wherein the contour function of the particular supporting roll is formed by addition of the convex superposit