Tool for inserting or removing a tang-free wire thread insert, production method therefor and method for manually replacing an entraining blade of this tool

The invention claimed is: 1. A tool for installing or removing a tang-free wire thread insert, which has the following features: a. a spindle body with a drive section and a receiving section, wherein the receiving section has one of a threaded and a threadless surface for receiving the wire thread insert, wherein the receiving section has an axial recess, the axial recess being open on a front side of the spindle body adjacent to the receiving section, the axial recess being open in a radial direction with respect to the spindle body, creating a radial window to the axial recess, the radial window being adjacent to the front side of the spindle body, b. an entraining blade, which is arranged in the axial recess of the receiving section, the entraining blade comprising a blade projection which is spring-mounted in an engaging position in the radial direction through a spring, so that the wire thread insert is engageable by means of the blade projection of the entraining blade through the radial window, while c. the entraining blade in the axial recess is fastenable and replaceable by means of a fastening connection between the entraining blade and the spindle body, wherein the fastening connection is designed as a latching or plug connection, which is manually establishable and releasable, wherein d. the entraining blade has one of a negative and positive fastening contour, which works together with a suitably designed mounting contour of the spindle body within the recess. 2. The tool according to claim 1 , wherein the fastening contour of the entraining blade is one of a pin-like appendage and a ring-shaped opening and the mounting contour is one of a receiving impression and an axially extending projection. 3. The tool according to claim 1 , wherein the entraining blade includes a latch bearing contour for the fastening connection on one side, with which the entraining blade is releasably latchable within the axial recess. 4. The tool according to claim 3 , wherein the latch bearing contour is one of positively and negatively spring-loaded and works together respectively with a counter bearing, the counter bearing shaped complementarily to the latch bearing contour of the entraining blade. 5. The tool according to claim 4 , wherein the counter bearing is integral with the spindle body within the axial recess or is fastened within the axial recess. 6. The tool according to claim 1 , wherein the axial recess has one of a pressed in adapter and a pin extending transversely to a longitudinal axis of the receiving section, on which the entraining blade is fastenable. 7. The tool according to claim 1 , in which the axial recess is a bore hole and in which a slotted support sleeve is fastened to the bore hole with a pin progressing transversely to a longitudinal direction of a slot of the sleeve for fastening the entraining blade. 8. The tool according to claim 1 , wherein the entraining blade is designed in combination with the spring in a U-shaped manner so that at least one U-leg is formed by the entraining blade and another U-leg is formed by the spring. 9. The tool according to claim 8 , the spring of which on an axial end comprises a radially outwards protruding projection, which extends in a longitudinal direction of the spring over a blade projection of the entraining blade. 10. The tool according to claim 8 , the entraining blade and the spring of which form an integral structure. 11. The tool according to claim 1 , wherein the manually establishable and releasable latching or plug connection is achievable by manually grasping of the entraining blade, pulling of the entraining blade out of the axial recess and manually inserting and fastening of another entraining blade in the axial recess. 12. A tool for installing or removing a tang-free wire thread insert, in which the tool has the following features: a. a spindle body with a drive section and a receiving section, wherein the receiving section has one of a threaded and a threadless surface for receiving the wire thread insert, wherein the receiving section has an axial recess, the axial recess being open on the front side of the spindle body adjacent to the receiving section, the axial recess being open in a radial direction with respect to the spindle body creating a radial window to the axial recess, the radial window being adjacent to the front side of the spindle body, b. an entraining blade, which is arranged in the axial recess of the receiving section, the entraining blade comprising a blade projection that is spring-mounted in an engaging position in the radial direction through a spring, so that the wire thread insert is engageable by means of the blade projection of the entraining blade by means of the blade projection through the radial window, while c. the entraining blade is designed as one piece with the spring, and the entraining blade is manually fastenable and replaceable in the axial recess by means of a fastening connection between the entraining blade and the spindle body, wherein d. the entraining blade has one of a negative and positive fastening contour, which works together with a suitably designed mounting contour of the spindle body within the recess. 13. The tool according to claim 12 , wherein the fastening contour of the entraining blade is one of a pin-like appendage and a ring-shaped opening and the mounting contour is one of a receiving impression and an axially extending projection. 14. The tool according to claim 12 , in which the entraining blade has a latch bearing contour for the fastening connection on one side, with which the entraining blade is releasably latchable within the axial recess. 15. The tool according to claim 14 , wherein the latch bearing contour is designed one of positively and negatively spring-loaded and works together respectively with a counter bearing, the counter bearing shaped complementarily to the latch bearing contour of the entraining blade. 16. The tool according to claim 15 , in which the counter bearing is designed integrally in the spindle body within the axial recess or is fastened within the axial recess. 17. The tool according to claim 12 , in which the axial recess has one of a pressed in adapter and a pin extending transversely to a longitudinal axis of the receiving section, on which the entraining blade is fastenable. 18. The tool according to claim 12 , in which the axial recess is a bore hole, wherein a slotted support sleeve is fastened to the bore hole with a pin progressing transversely to a longitudinal direction of a slot of the sleeve for fastening the entraining blade. 19. The tool according to claim 12 , in which the entraining blade is designed in combination with the spring in a U-shaped manner so that at least one U-leg is formed by the entraining blade and another U-leg is formed by the spring. 20. The tool according to claim 19 , the spring of which on an axial end comprises a radially outwards protruding projection, which extends in a longitudinal direction of the spring over the blade projection of the entraining blade. 21. The tool according to claim 19 , in which the entraining blade and the spring of which form an integral structure. 22. An entraining blade of a tool for installing and removing a tang-free wire thread insert, with which the tang-free wire thread insert is installable and removable, the entraining blade having a blade projection, and a fastening contour, the entraining blade is manually fastenable and replaceable in