Calibration of a triangulation sensor

What is claimed is: 1. A method for calibrating a triangulation sensor including a light emitting unit for emitting measuring light of defined chromatic measuring properties and a light receiving unit for reception of light according to defined chromatic reception properties, wherein the chromatic reception properties are adjusted to the chromatic measuring properties, the light emitting unit being arranged with known position and orientation relative to the light receiving unit, the method comprising: providing triangulation-based position measurements using the triangulation sensor by determining image positions of reflected measuring light in an inner sensor image coordinate system (I, J); defining a calibration pattern using a calibration setup including the triangulation sensor and a calibration target; performing a calibration measurement with reference to the calibration target by means of the triangulation sensor; and providing the triangulation sensor and the calibration target in defined relative position with reference to an outer coordinate system (X, Y, Z), wherein the calibration measurement is performed by: directing the measuring light towards the calibration target so that the measuring light impinges on the calibration target, capturing an image of the calibration target by means of the light receiving unit, processing the captured image by: deriving a pattern image position with reference to an inner sensor image coordinate system, the pattern image position provides information about a position of the calibration pattern in the captured image, and deriving a light image position with reference to the inner sensor image coordinate system (I, J), the light image position provides information about a position of the measuring light impinging on the calibration target in the captured image, and deriving calibration data based on: the relative position of the triangulation sensor and the calibration target, the pattern image position, and the light image position. 2. The method according to claim 1 , wherein the calibration pattern defines a reference point at the calibration target and a reference point image position which represents the position of the reference point in the captured image is determined based on the processing of the captured image. 3. The method according to claim 2 , further comprising: determining a distance or an orientation of the impinging measuring light relative to the reference point image position in the captured image by means of the processing of the captured image, and deriving an offset (O) of a projection of the measuring light relative to the reference point and processing the calibration data based on the offset (O). 4. The method according to claim 1 , wherein: a defined distance between the triangulation sensor and the reference point is provided with reference to the outer coordinate system (X, Y, Z) and calibrating the triangulation sensor is performed based on respective distance data referring to the outer coordinate system (X, Y, Z), the reference point image position referring to the inner sensor image coordinate system (I, J) defined by the triangulation sensor and the light image position referring to the inner sensor image coordinate system (I, J), wherein a transformation of coordinate data is provided based on two sets of coordinate data for the reference point, wherein a first set refers to the outer coordinate system (X, Y, Z) and a second set refers to the inner sensor image coordinate system (I, J). 5. The method according to claim 1 , further comprising: illuminating the calibration target with illumination light of defined chromatic illumination properties, wherein the chromatic illumination properties are adjusted to the chromatic reception properties so that measuring light and illumination light is detectable by the light receiving unit. 6. The method according to claim 1 , wherein the calibration setup comprises a positioning device which is arranged to provide defined and variable relative positioning of the calibration target and the triangulation sensor. 7. The method according to claim 6 , further comprising: capturing a series of images of the calibration target according to the set of different relative positions by means of the light receiving unit; processing the series of images to derive a series of pattern image positions which provides information about positions of the calibration pattern in the series of images; and deriving the calibration data based on: the set of different relative positions, and the series of pattern image positions. 8. The method according to claim 6 , wherein the positioning device is embodied as a coordinate measuring machine, and wherein: at least one of the calibration target or the triangulation sensor is arranged at the probe head for being varied in its position by means of the coordinate measuring machine. 9. A controlling and processing unit for calibration of a triangulation sensor using a calibration target including a calibration pattern, the controlling and processing unit comprising: a calibration means which generates calibration data by: receiving positional information regarding a defined relative position of the triangulation sensor and the calibration target with reference to an outer coordinate system (X, Y, Z), receiving a pattern image position with reference to an inner sensor image coordinate system (I, J), the pattern image position provides information about a position of the calibration pattern in an image captured by a light receiving unit of the triangulation sensor, receiving a light image position with reference to the inner sensor image coordinate system (I, J), the light image position provides information about a position of measuring light impinging on the calibration target in the captured image, and deriving the calibration data based on: the relative position of the triangulation sensor and the calibration target, the pattern image position, and the light image position. 10. A method for calibrating a triangulation sensor including a light emitting unit for emitting measuring light of defined chromatic measuring properties with a defined light pattern and a light receiving unit for reception of light according to defined chromatic reception properties, wherein the chromatic reception properties are adjusted to the chromatic measuring properties, the method comprising: providing triangulation-based position measurements using the triangulation sensor by determining image positions of reflected measuring light in an inner sensor image coordinate system (I, J); defining a calibration pattern using a calibration setup including the triangulation sensor and a calibration target; performing a calibration measurement with reference to the calibration target by means of the triangulation sensor; and providing the triangulation sensor and the calibration target in defined relative position with reference to an outer coordinate system (X, Y, Z), wherein the calibration measurement is performed by: providing the triangulation sensor and the calibration target inside of a climate volume in defined relative position with reference to an outer coordinate system (X, Y, Z), performing the calibration measurement by directing the measuring light towards the calibration target so that the measuring light impinges on the calibration target, applying a defined variation of a temperature in the climate volume and thereby defining a set of calibration temperatures, capturing a set of images of the calibration target by means of the light receiving unit at least according to the set of calibration temperatures and processi