Device and method for measuring the concentricity of an internal toothing of a shaft

What is claimed is: 1. A device for measuring concentricity of an internal toothing of a component, the device comprising a determination segment for determining a concentricity deviation, the determination segment comprising: a spindle unit including a tapping spindle with a gauge gear wheel disposed on a first end of the tapping spindle and configured for tapping the concentricity of the internal toothing of the component, and an output spindle for transmitting the tapped concentricity from the tapping spindle to a measuring unit, wherein the output spindle is disposed directly or indirectly on a second end of the tapping spindle opposite the first end; a spindle holder for holding and positioning the tapping spindle, the output spindle, or the spindle unit, wherein the spindle holder is disposed on a carriage that is movable in an axial direction along a longitudinal axis of the spindle unit; an adjusting element for positioning the gauge gear wheel; and the measuring unit for comparing the tapped concentricity with reference values. 2. The device of claim 1 comprising a component-receiving segment for receiving the component, wherein the component-receiving segment comprises at least two bearing elements that are configured to be axially spaced apart and are for bearing and allowing a rotational movement of the component about a longitudinal axis of the component. 3. The device of claim 2 wherein at least one of the at least two bearing elements is a steady rest. 4. The device of claim 2 wherein the component-receiving segment comprises a drive unit for rotationally driving the component about the longitudinal axis of the component. 5. The device of claim 1 wherein the spindle holder comprises: a spindle holder support for receiving the tapping spindle and the output spindle; and a spindle holder base for moving the spindle unit. 6. The device of claim 5 wherein the spindle holder base is a plate section construction having plate sections that cross one another in a crossing axis, wherein the crossing axis extends horizontally and orthogonally to a longitudinal axis of the spindle unit. 7. The device of claim 1 comprising a component-receiving segment for receiving the component, wherein the determination segment or the component-receiving segment is disposed on a holding table that is steplessly movable in at least one degree of freedom. 8. The device of claim 1 wherein the adjusting element and the measuring unit are disposed on and operatively connected to the output spindle. 9. A device for measuring concentricity of an internal toothing of a component, the device comprising a determination segment for determining a concentricity deviation, the determination segment comprising: a spindle unit including a tapping spindle with a gauge gear wheel disposed on a first end of the tapping spindle and configured for tapping the concentricity of the internal toothing of the component, and an output spindle for transmitting the tapped concentricity from the tapping spindle to a measuring unit, wherein the output spindle is disposed directly or indirectly on a second end of the tapping spindle opposite the first end; a spindle holder for holding and positioning the tapping spindle, the output spindle, or the spindle unit, wherein the spindle holder comprises: a spindle holder support for receiving the tapping spindle and the output spindle; and a spindle holder base for moving the spindle unit, wherein the spindle holder base is elastically deformable about an axis of rotation; an adjusting element for positioning the gauge gear wheel; and the measuring unit for comparing the tapped concentricity with reference values. 10. A device for measuring concentricity of an internal toothing of a component, the device comprising a determination segment for determining a concentricity deviation, the determination segment comprising: a spindle unit including a tapping spindle with a gauge gear wheel disposed on a first end of the tapping spindle and configured for tapping the concentricity of the internal toothing of the component, and an output spindle for transmitting the tapped concentricity from the tapping spindle to a measuring unit, wherein the output spindle is disposed directly or indirectly on a second end of the tapping spindle opposite the first end; a spindle holder for holding and positioning the tapping spindle, the output spindle, or the spindle unit, wherein the spindle holder comprises: a spindle holder support for receiving the tapping spindle and the output spindle; and a spindle holder base for moving the spindle unit, wherein the spindle holder base comprises a lever arm construction having support rods that cross one another in a plane extending in an axial direction of a longitudinal axis of the spindle unit; an adjusting element for positioning the gauge gear wheel; and the measuring unit for comparing the tapped concentricity with reference values. 11. The device of claim 10 wherein at least one of the support rods comprises a spring joint.