Measuring machine based on a delta robot assembly

The invention claimed is: 1. A coordinate measuring machine based on a delta robot structure comprising: a base plate; a probe for gauging a first workpiece; a plurality of arms, the arms each having a middle joint and being connected at a first end by means of first universal joints to the base plate and being connected at their second end by a third universal joint to a movable platform, the movable platform supporting the probe; and a control unit for controlling the movement of the movable platform using information delivered by angle encodes in the joints, wherein the base plate is configured to accommodate a first workpiece, and the probe is arranged on the movable platform and gauging the first workpiece on the base plate so as to utilize a free inside space of the delta robot structure between the arms and between the movable platform and the base plate as a measuring volume. 2. The coordinate measuring machine according to claim 1 , wherein the probe is at least of the group consisting of: an ultrasonic probe, a tactile probe, and an optical probe, wherein the probe is mounted on the movable platform such that a trajectory of the tactile probe, a path way of ultrasonic waves of the ultrasonic probe, or a field of view of the optical probe, respectively, is directed through a free inside space of the delta structure onto the base plate. 3. The coordinate measuring machine according to claim 1 , wherein the delta robot structure is an extended delta robot structure comprising the movable platform with movement in parallelograms with 3 degrees of freedom a rotational movement in up to 6 degrees of freedom. 4. The coordinate measuring machine according to claim 1 , further comprising a frame table and wherein the base plate is fixably mounted to said frame table, is un-dissolvably fixed to said frame table, or is formed as one piece with said frame table. 5. The coordinate measuring machine according to claim 1 , further comprising: at least one pile; and at least one lamp of a first illumination device and/or at least two stationary cameras of a global measuring system, wherein the at least one pile protrudes from the base plate or from a frame table which the base plate is fixed to, and protrudes in a direction in which the delta robot structure protrudes and the at least one pile supports at least the one lamp of the first illumination device and/or the at least two stationary cameras of the global measuring system, wherein the at least one lamp and/or the at least two stationary cameras are arranged so as to be pivotable around at least a horizontal axis and fixable in a desired position. 6. The coordinate measuring machine according to claim 5 , wherein the at least one pile is adjustable in its longitudinal extension in a telescopic manner. 7. The coordinate measuring machine according to claim 1 , wherein the control unit is also an analysing unit and is integrated in the base plate or a frame table onto which the base plate is fixed. 8. The coordinate measuring machine according to claim 7 , wherein the control unit and the probe are provided with wireless communication means for data transfer. 9. The coordinate measuring machine according to claim 1 , wherein the measuring machine comprises a global measuring system, the global measuring system comprising at least two stationary cameras and a marking at the movable platform and/or at the arms of the delta robot structure, the stationary cameras and the marking being arranged such that the marking is easily observable within the measuring volume by the stationary cameras. 10. The coordinate measuring machine according to claim 9 , wherein the stationary cameras of the global measuring system are connected in a fixed manner to the base plate either directly, by means of a frame table onto which the base plate is fixed on, or by means of cantilevers which protrude radially from the base plate or from the frame table, wherein the marking is placed on the inside surface of the movable platform. 11. The coordinate measuring machine according to claim 9 , wherein the stationary cameras of the global measuring system are mounted on piles protruding from the base plate or a frame table the base plate is fixed on, the piles protruding in the same direction as the delta robot structure and the marking is placed on the outside surface of the movable platform. 12. The coordinate measuring machine according to claim 9 , wherein the global measuring system comprises more than two stationary cameras which are equally distributed. 13. The coordinate measuring machine according to claim 1 , wherein the measuring machine comprises an illumination device, wherein the illumination device is realized in form of a first illumination device and/or a second illumination device, and wherein the second illumination device is integrated into the base plate of the delta structure of the measuring machine, the base plate for supporting the workpiece being made of a transparent material. 14. The coordinate measuring machine according to claim 1 , wherein the coordinate measuring machine comprises an illumination device and the probe is an optical sensor, the illumination device performing coaxial illumination wherein the illumination light is guided coaxially with the field of view of the optical sensor or a ring illumination device arranged around the optical sensor. 15. The coordinate measuring machine according to claim 1 , wherein the measuring machine comprises: at least three piles protruding from the base plate or a frame table onto which the base plate is fixed, the at least three piles protruding in the same direction as the delta robot structure and supporting a supporting plate which is arranged opposed to the base plate and which is configured to accommodate a second workpiece, wherein each of the base plate and the supporting plate are provided with fixation means for fixing the first workpiece and second workpiece, respectively, wherein the probe and the control unit are configured to measure simultaneously a first workpiece and a second workpiece using an internal and an external measuring volume, and wherein the probe is a single probe having two probe tips, one tip directed inwardly onto the base plate using the internal measuring volume and one tip directed outwardly onto the supporting plate using the external measuring volume, wherein the single probe is an ultrasonic probe or an optical probe and collects the data of both tips. 16. The coordinate measuring machine according to claim 15 , wherein a first set of stationary cameras is mounted on the side of the base plate and are configured to observe a first marking arranged at an inside of the movable platform and/or the arms of the delta robot structure, and wherein an additional set of stationary cameras is mounted on the side of supporting plate configured to observe a second marking at the outside of the movable platform. 17. The coordinate measuring machine according to claim 15 , wherein the base plate and the supporting plate comprise fixing means for fixation of a workpiece and the control unit is configured in a way that the measuring machine is usable with a randomly oriented base plate. 18. The coordinate measuring machine according to claim 1 , the measuring machine comprising: at least three piles protruding from the base plate or a frame table onto which the base plate is fixed, the at least three piles protruding in the same direction as the delta robot structure and supporting a supporting plate which is arranged opposed to the base pla