Calibration method and angle measuring method for an angle measuring device, and angle measuring device

What is claimed is: 1. An angle measuring device calibration method to be carried out without a reference system, with the angle device including: a code carrier carrying an absolute position code; and at least N≧2 reading heads which have a fixed, known angular position in an angular distance relative to one another, wherein a subset of the N≧2 reading heads are unequally spaced relative to an adjacent reading head of the N≧2 reading heads around the circumference of the code carrier, and each reading head built for detecting the position code at least partially, such that an absolute angular position value of the respective reading head relative to the code carrier can be determined, wherein the code carrier is rotatable relative to the reading heads and different angular positions of the code carrier relative to the reading heads can thus be taken, the method comprising: determining the absolute angle position values of the reading heads in an angular position, determining an angle error by comparing the difference between the absolute angle position values of the reading heads with the known angular position of the reading heads with respect to one another, repeating the steps of determining the absolute angle position values and the angle error for a multiplicity of varying angular positions, and carrying out a mathematical evaluation method comprising: determining parameters of a mathematical function quantifying the angle errors, determining calibration parameters as the parameters of the quantifying mathematical function or as a correction or code table which is derived from the parameters; and calibrating the angle measuring device with the calibration parameters. 2. The calibration method as claimed in claim 1 , wherein the angular positions of the reading heads are chosen in such a way that at least one of the angular distances between respectively adjacent reading heads differs from at least one of the remaining N−1 angular distances. 3. The calibration method as claimed in claim 2 , wherein all N angular distances are different. 4. The calibration method as claimed in claim 1 , wherein the determination of the parameters of the quantifying mathematical function is effected by a parameter estimation on the basis of an optimization method. 5. The calibration method as claimed in claim 1 , wherein: the determination of the parameters of the quantifying mathematical function is effected by a parameter estimation on the basis of an optimization method, and the quantifying mathematical function is a Fourier series, and represents the parameters by expansion of the angle errors determined for the respective angular positions the coefficients of all harmonic oscillations up to an order ≧N of the angle error. 6. The calibration method as claimed in claim 1 , wherein repeating the steps of determining the angular position values and the angle error takes place in a measurement range of the angle measuring system, which measurement range is subdivided into subranges, in such a way that specific subranges are covered by the varying angular positions with a defined density. 7. The calibration method as claimed in claim 6 , wherein the angular positions are distributed approximately uniformly over said specific subranges and the angular position values are detected simultaneously at the reading heads. 8. The calibration method as claimed in claim 1 , wherein: in addition a determination of misalignments by monitoring the calibration parameters for change; and/or a derivation of an estimated value for the accuracy of the angle sensor on the basis of the calibration parameters are/is carried out. 9. The calibration method as claimed claim 1 , wherein the angle position value and/or the angle error are/is determined multiply in the same angular position and these are averaged before the mathematical evaluation method is carried out. 10. The calibration method as claimed claim 1 , wherein the angle position value and/or the angle error are/is determined multiply in the same angular position and these are averaged before the mathematical evaluation method is carried out by means of a compensatory calculation according to the least squares method, or the calibration method is performed multiply and an optimization method is carried out for the sets of coefficients obtained in the process. 11. The calibration method as claimed in claim 1 , wherein the angular position of the reading heads is determined on the basis of a difference between the angle positions in an arbitrary reference angular position. 12. The calibration method as claimed in claim 1 , wherein the angular position of the reading heads is determined by averaging the differences over a plurality of arbitrary reference angular positions. 13. The calibration method as claimed in claim 1 , wherein: the angular position of the reading heads is chosen in such a way that the dominant angle errors, which supply a significant error proportion, including: errors caused by eccentricity, errors in the code division of the code disk, and/or errors owing to changing ambient influences, are contained in the qualifying mathematical function with an error proportion of at least 25%. 14. The calibration method as claimed in claim 1 , wherein the angle positions are determined with reading heads arranged symmetrically in each case in pairs. 15. The calibration method as claimed in claim 1 , wherein the reading heads are embodied as optical, electro-optical, magnetic, or capacitive reading heads. 16. An angle measuring method for determining an angle measurement value with the aid of an angle measuring device, wherein the angle measuring device includes: a code carrier carrying an absolute position code, and at least N≧2 reading heads which have a fixed, known angular position having an angular distance, wherein a subset of the N≧2 reading heads are unequally spaced relative to an adjacent reading head of the N≧2 reading heads around the circumference of the code carrier, and in each case detect the position code at least partially, such that an absolute angular position value of the respective reading head relative to the code carrier can be determined, wherein the code carrier is rotatable relative to the reading heads and different angular positions of the code carrier relative to the reading heads can thus be assumed, the method comprising the following steps: determining an angle position value by means of at least one of the reading heads, which detects at least one part of an absolute position code of a code carrier; determining the angle measurement value by correcting the angle position value on the basis of calibration parameters determined in the context of a calibration method as claimed in claim 1 ; and providing the angle measurement value. 17. The angle measuring method as claimed in claim 16 , wherein in addition to the calibration method as claimed in claim 1 is carried out: during assembly of the angle sensor, after the mounting of angle sensor in a device, upon each occasion when the device is switched on, in cyclic or acyclic time intervals, in a manner initiated by the user, when there is a change in the ambient conditions, after impact or shock stresses, at regular service intervals and/or continuously during measurement operation, taking account of calibration parameters which were determined during measurement operation and/or were determined during an earlier calibration and stored. 18. Angle measuring method as claimed in claim 17 , where