Collet chuck

The invention claimed is: 1. A collet chuck for chucking a cylindrical tool shaft comprising: a chuck body, a receiving sleeve with a cylindrical bore, which is oriented on the diameter of the tool shaft that is to be chucked for including the tool in a nonpositive, frictional way, and a screw cap, which are matched to one another in such a way that by tightening the screw cap, the receiving sleeve can be driven into the chuck body so that it fixes the tool shaft in the collet chuck in a ready-to-operate fashion, the receiving sleeve being one-piece, the screw cap being one-piece, wherein the receiving sleeve and the screw cap are directly and permanently connected to each other and at the same time, are able to rotate relative to each other, wherein the receiving sleeve and the screw cap are supported against each other in rotary fashion by rolling elements, which each roll against the receiving sleeve and the screw cap, wherein the collet chuck has a set of rolling elements in a V-shaped arrangement whose rolling elements are arranged so that the orthogonals to the rotational axes of the rolling elements only intersect with the chuck longitudinal axis of the chuck body on the inside of the chuck body. 2. The collet chuck of claim 1 , wherein the rolling elements form a roller bearing, with the aid of which the receiving sleeve holding a tool shaft can be pressed into the chuck body and pulled out from it again by screwing and unscrewing the screw cap. 3. The collet chuck of claim 1 , wherein the rolling elements are arranged so that the receiving sleeve is automatically centered in the screw cap during the tightening of the screw cap. 4. The collet chuck of claim 1 , wherein the rolling elements are installed between the receiving sleeve and the screw cap, without a bearing cage. 5. The collet chuck of claim 1 , wherein the receiving sleeve has a collar that protrudes radially beyond the chuck body and on its outer circumference surface, the collar has a running track for the rolling elements. 6. The collet chuck of claim 5 , wherein the receiving sleeve is not slit in the region in which the running track for the rolling elements is embodied on it. 7. The collet chuck of claim 1 , wherein the receiving sleeve is rotationally secured relative to the chuck body through form-fitting engagement. 8. The collet chuck of claim 7 , wherein at least one section that achieves a rotational securing has a non-round and/or polygonal outer contour or a locking groove or locking projection and the chuck body is embodied as complementary to it. 9. The collet chuck of claim 1 , wherein the screw cap has an installation opening that is accessible from the outside of the screw cap for inserting rolling elements between the screw cap and the receiving sleeve. 10. The collet chuck of claim 9 , wherein the installation opening is closed by means of a screw, a press-fitted plug, or a closure that is glued into place or thermally fastened. 11. The collet chuck of claim 1 , wherein in its end oriented away from the screw cap, the receiving sleeve has an opening for a length-adjusting screw. 12. The collet chuck of claim 1 , wherein the receiving sleeve has a collar, which in the chucked state, rests flat against the end of the chuck body and/or the screw cap has an inner end, which, in the chucked state, rests flat against the end of the chuck body. 13. The collet chuck of claim 1 , wherein the screw cap can be screwed to the chuck body by means of a multi-start thread and/or a thread embodied as a trapezoidal thread. 14. The collet chuck with a trapezoidal thread according to claim 13 , wherein at least one of the two thread flanks of the trapezoidal thread forms an angle of approximately 90° relative to the tool axis. 15. The collet chuck of claim 1 , wherein rolling elements are held in a rolling element cage, which is positioned between the outer circumference surface of the chuck body and the inner circumference surface of the screw cap. 16. The collet chuck of claim 15 , wherein the rolling element cage is a cylindrical ring that has openings situated one after another along at least one helix, each provided for a respective rolling element. 17. The collet chuck of claim 15 , wherein on two opposing sides of an opening for a rolling element, the rolling element cage has blocks that protrude in the radial direction relative to a base part of the rolling element cage and form a boundary through which a rolling element can be spread-inserted into an opening of the rolling element cage. 18. The collet chuck of claim 17 , wherein each opening is allocated a pair of blocks, one of which is situated after the rolling element in the rotation direction and another of which is situated before the rolling element. 19. The collet chuck of claim 15 , wherein the rolling element cage is equipped with rolling elements along a helix that extends at least three times around its outer circumference. 20. The collet chuck of claim 15 , wherein a base body of the rolling element cage is thin-walled and has a thickness (D) of no more than 2 mm. 21. The collet chuck of claim 15 , wherein the entire rolling element cage is composed of plastic. 22. The collet chuck of claim 1 , wherein at its outer circumference between its end and an external thread for the screwing-on of the screw cap, the chuck body has a damping element, which encloses the chuck body in annular fashion at its outer circumference. 23. The collet chuck of claim 1 , wherein at its end oriented toward the screw cap, the chuck body has a damping element. 24. The collet chuck of claim 1 , wherein at its outer circumference, the chuck body has a mating surface, which interacts with a corresponding counterpart mating surface on the inside of the screw cap and as a result, centers the screw cap relative to the chuck body in a form-fitting way. 25. The collet chuck of claim 1 , wherein at least one of the receiving sleeve, the screw cap or the chuck body, at least in the region in which they come into form-fitting contact with one another, is provided with at least one of a sliding coating or a wear-protection coating to improve the mechanical properties. 26. The collet chuck of claim 25 , wherein the outer region of the receiving sleeve section and/or the inner region of the tool holder is provided with an electrically non-conductive coating. 27. The collet chuck of claim 1 , wherein the receiving sleeve has at least two different types of slit, in particular slits that differ in terms of their length in the direction parallel to the longitudinal axis of the receiving sleeve. 28. The collet chuck of claim 1 , wherein a conical surface by means of which the receiving sleeve is compressed by the chuck body has a cone angle of 0.5° to 4°. 29. The collet chuck of claim 1 , wherein the chuck body has a receiving sleeve socket with an inner cone whose cone angle is less than or equal to that of the outer cone of the receiving sleeve. 30. The collet chuck of claim 1 , wherein the receiving sleeve socket of the chuck body has at least one groove that makes it possible to dispense coolant and/or lubricant into the working region of the tool through the tool holder. 31. A working unit for a machine tool, composed of a collet chuck according to claim 1 in which a tool with a cylindrical tool shaft is