Surgical, torque-transferring instrument including an associated tool

The invention claimed is: 1. A chip-removing tool of a surgical torque-transferring instrument comprising: a distal engagement segment adjoined by a tool shaft whose proximal end portion is prepared for a torque-transferring insertion into a tool mounting of the instrument, for which purpose the proximal end portion is subdivided at least in a functional section “torque transmission” and a functional section “axial locking” axially spaced therefrom, the functional section “axial locking” being arranged with respect to the engagement segment so as to be proximal relative to the functional section “torque transmission”; and a further functional section “screw-in aid” as a part of the functional section “torque transmission”, said further functional section being axially provided between the functional sections “torque transmission” and “axial locking” in the region of a radial shoulder between the functional sections “torque transmission” and “axial locking, wherein the functional section “torque transmission” is designed so as to comprise a dihedron whose two contact planes diametrically facing away from each other extend toward each other in a wedge-shaped manner toward the functional section “axial locking”. 2. The chip-removing tool according to claim 1 , wherein a tool shaft diameter d in the functional section “axial locking” is smaller than a tool shaft diameter D in the functional section “torque transmission”, a radial shoulder being formed between said two functional sections. 3. The chip-removing tool according to claim 2 , wherein d≦0.6 D applies to both tool shaft diameters. 4. The chip-removing tool according to claim 1 , wherein the contact planes are manufactured by a correspondingly planar reduction of the tool shaft diameter D in the functional section “torque transmission”. 5. The chip-removing tool according to claim 1 , wherein the functional section “screw-in aid” comprises a number of glide planes that are oriented in a wedge-shaped manner, two of which being formed at both longitudinal sides of a respective one of said contact planes at an angle relative thereto and breaking the longitudinal edges of the respective contact planes at least in axial portions. 6. The chip-removing tool according to claim 1 , wherein the functional section “axial locking” comprises a number of radial indentations, or a circumferential groove, wherein axially acting undercuts are formed on a circumference of the tool shaft. 7. A surgical torque-transferring instrument comprising a tool mounting for selectively receiving a rotatably supported surgical tool for axially securing the tool in the tool mounting as well as for transferring a torque to the tool, wherein the tool comprises the chip-removing tool of claim 1 . 8. A surgical torque-transferring instrument according to claim 7 , comprising a universal handpiece having an integrated torque transmission train and/or a drive, and a selectable handpiece shaft comprising an integrated tool mounting, said handpiece shaft being able to be flanged to the universal handpiece while coupling the tool mounting to the torque transmission train or the drive.