Coordinate measuring apparatus with optical sensor and corresponding method

What is claimed is: 1 . A coordinate measuring apparatus, comprising: a rotatably driveable receptacle for a gear workpiece; a plurality of axes; and a measuring assembly; wherein the apparatus is configured to perform feed movements and measuring movements of the measuring assembly relative to the gear work piece; wherein the measuring assembly includes an optical, contactless operating switch sensor defining a focus trigger sensor configured to emit a light beam along an optical axis in a direction of an object plane of the gear workpiece; wherein the focus trigger sensor is movable in a scanning movement relative to the object plane by using one or more of the axes; and wherein the focus trigger sensor is adapted to generate a switching signal when the object plane has reached a nominal distance relative to the focus trigger sensor. 2 . The coordinate measuring apparatus according to claim 1 , wherein the focus trigger sensor is positioned obliquely with respect to the object plane. 3 . The coordinate measuring apparatus according to claim 1 , wherein an angle of the light beam to the object plane is in an angular range of ±5 to ±70 degrees. 4 . The coordinate measuring apparatus according to claim 1 , wherein the focus trigger sensor defines a 2-segment or a 4-quadrant configuration. 5 . The coordinate measuring apparatus according to claim 4 , wherein the focus trigger sensor defines a 4-quadrant configuration comprising, on a receiving side thereof, an optically sensitive component having four sensor regions arranged as four quadrants in a common plane, wherein each of the four sensor regions is connected to a respective measuring input of an evaluation device, and generates the switching signal when all four sensor regions receive the same reflected light intensity of the light beam. 6 . The coordinate measuring apparatus according to claim 5 , wherein the optically sensitive component is a photodiode. 7 . The coordinate measuring apparatus according to claim 1 , wherein the focus trigger sensor is configured to use the Foucault principle, and has an imaging optical system configured to emit the light beam on a transmitting side thereof, and a plurality of differential diodes on a receiving side thereof configured to receive the light beam reflected from the object plane. 8 . The coordinate measuring apparatus according to claim 1 , wherein the focus trigger sensor includes a laser point sensor including a laser configured to emit the light beam. 9 . The coordinate measuring apparatus according to claim 8 , wherein the laser includes a laser diode. 10 . The coordinate measuring apparatus according to claim 1 , further including: at least one displacement sensor assigned to one of the plurality of axes, and at least one angle sensor associated with the rotationally drivable receptacle. 11 . The coordinate measuring apparatus according to claim 10 , further including: a memory configured to store data from the at least one displacement sensor and the at least one angle sensor relating to the position of the switch sensor relative to the object plane of the gear workpiece when the focus trigger sensor generates the switching signal. 12 . The coordinate measuring apparatus according to claim 10 , further including: a software module configured to process data from the at least one displacement sensor and the at least one angle sensor relating to the position of the switch sensor relative to the object plane of the gear workpiece when the focus trigger sensor generates the switching signal. 13 . The coordinate measuring apparatus according to claim 10 , further including a software module configured to determine at least one geometric specification of the object plane of the gear workpiece using data from one or more of the at least one displacement sensor or the at least one angle sensor. 14 . The coordinate measuring apparatus according to claim 13 , wherein the software module is part of a control system. 15 . The coordinate measuring apparatus according to claim 1 , further comprising a regulating system including a software module configured to perform an automated measuring operation for one or more of: a pitch measurement of the gear workpiece; a measurement of at least one flank line of the gear workpiece; or a measurement of a tooth profile of the gear workpiece. 16 . A method comprising: introducing a gear workpiece into a coordinate measuring apparatus including an optical switch sensor defining a focus trigger sensor configured to operate in a contactless manner; performing a first relative feed movement by using at least one axis of the coordinate measuring apparatus and moving the switch sensor to a starting position relative to an object plane of the gear workpiece; and optically measuring the gear workpiece using the switch sensor, wherein the optically measuring step comprises: rotationally driving the gear workpiece about a rotational axis thereof, generating switching signals with the switch sensor when the object plane reaches a nominal distance relative to the switch sensor, detecting data relating to the coordinate measuring apparatus, and determining geometrical data of the gear workpiece from the detected data. 17 . The method according to claim 16 , further comprising performing a scanning movement with the switch sensor during the rotationally driving step. 18 . The method according to claim 16 , wherein the optically measuring step includes one or more of: a pitch of the gear workpiece; at least one flank line of the gear workpiece; or a tooth profile of the gear workpiece. 19 . The method according to claim 16 , wherein the focus trigger sensor is positioned obliquely with respect to the object plane of the gear workpiece. 20 . The method according to claim 16 , further including emitting a light beam from the focus trigger sensor at an angle to the object plane in an angular range of ±5 to ±70 degrees.