Linear encoder having calibration functionality

What is claimed is: 1. A calibration method for a linear encoder, the linear encoder comprising: a control and analysis unit having storage unit and calibration functionality; a mass embodiment having a position code marking made of code elements; and a read head having a sensor unit, wherein read head and mass embodiment are movable in relation to one another, and wherein: at least two code elements are detectable in one step by means of the sensor unit; the sensor unit has at least one first, trailing detection reference point, and at least one second, leading detection reference point, which are fixed spaced apart from one another by means of a substrate, wherein a detection distance is established in each case between two detection reference points; and a calibration of the position code marking can be carried out by means of the read head using the at least one detection distance with the aid of the calibration functionality, wherein: the substrate is manufactured from a dimensionally-durable and aging-resistant material having a linear coefficient of thermal expansion having an absolute value in the range of 0 to at most 5·10 −6 K −1 and/or the read head has a precision measuring unit for the high-precision determination of the at least one detection distance with a relative error in the range of at most 5·10 −6 ; whereby the linear encoder is provided for the high-precision calibration with at least one standard, which is defined by the at least one detection distance, having a relative error in the range of at most 5·10 −6 , whereby according to the method a first calibration comb is formed by the following steps: detecting in a first position of the read head a first code element as a start code element in relation to a trailing detection reference point and, in the same step, a second code element is detected in relation to a leading detection reference point; wherein the read head is displaced into a second position in relation to the mass embodiment until the second code element is detectable in relation to the trailing detection reference point; detecting the second code element in relation to the trailing detection reference point and, in the same step, a further code element is detected in relation to the leading detection reference point; wherein the read head is displaced into further positions and the steps of displacing the read head into a second position in relation to the mass embodiment until the second code element is detectable in relation to the trailing detection reference point and of detecting the second code element in relation to the trailing detection reference point and detecting, in the same step, a further code element in relation to the leading detection reference point are repeated until the read head has reached a desired point of the mass embodiment or the last code element of the mass embodiment detectable in this manner, wherein: in the course of the calibration method, the detection distance between the leading detection reference point and the trailing detection reference point is determined as a high-precision standard; with the aid of the standard thus defined, calculated position values are calculated for the detected code elements; and calibrated position values are generated and stored based on the calculated position values. 2. The calibration method according to claim 1 , wherein: the high-precision determination of the standard is performed for each calibration especially by interferometry. 3. The calibration method according to claim 1 , wherein: the high-precision determination of the standard is performed before the final installation of the linear encoder. 4. The calibration method according to claim 1 , wherein: the calculated position values are calculated on the basis of a start position value assigned to the start code element and on the basis of the standard, wherein, for the calculation of a calculated position value for the second code element, a standard is added to that start position value, which is assigned to the start code element, and in each case a further standard is added for each following further code element of the first calibration comb. 5. The calibration method according to claim 1 , wherein: calculated position values are stored as calibrated position values; and/or a calibration function, on the basis of which calibrated position values are determined and stored, is created on the basis of the calculated position values for at least one section of the position code marking; and/or the difference between the calculated position value and a target position value stored in the storage unit is formed with respect to a detected code element, wherein the value of the difference is stored as a correction value and the combination of target position value and correction value is used as the calibrated position value. 6. The calibration method according to claim 1 , wherein: at least one further calibration comb is formed and the calibration combs are linked to one another, wherein the at least one further calibration comb is formed, proceeding from a further code element to be detected as a start code element, wherein the code element to be detected as the start code element, when the read head is located in the first calibration comb in its first position, is located within one standard on the mass embodiment, and in fact directly adjacent to the first start code element or, separated by other code elements, adjacent to the first start code element, by repeating the method steps of the first calibration comb as follows: detecting in a first position of the read head a first code element as a start code element in relation to a trailing detection reference point and, in the same step, a second code element is detected in relation to a leading detection reference point; wherein the read head is displaced into a second position in relation to the mass embodiment until the second code element is detectable in relation to the trailing detection reference point; detecting the second code element in relation to the trailing detection reference point and, in the same step, a further code element is detected in relation to the leading detection reference point; wherein the read head is displaced into further positions and the steps of displacing the read head into a second position in relation to the mass embodiment until the second code element is detectable in relation to the trailing detection reference point and of detecting the second code element in relation to the trailing detection reference point and detecting, in the same step, a further code element in relation to the leading detection reference point are repeated until the read head has reached a desired point of the mass embodiment or the last code element of the mass embodiment detectable in this manner, wherein: in the course of the calibration method, the detection distance between the leading detection reference point and the trailing detection reference point is determined as a high-precision standard; with the aid of the standard thus defined, calculated position values are calculated for the detected code elements; and calibrated position values are generated and stored based on the calculated position values. 7. The calibration method according to claim 6 , wherein: code element distances between adjacent code elements are measured and the measured code element distances are used to link the calibration combs with one another by way of an equalization calculation; and/or the measured code element distances are used to determine a calibrated position value for an adjacent code element proceeding from a calculated position value of a code element. 8. The calibration method accord