Screw-in tool and tool holder for such a screw-in tool

The invention claimed is: 1. A rotary tool for coupling with a rotatable threaded holder, the tool comprising: a tool head with a work surface and a conical first bearing surface formed in the tool head and defining a first cone angle; and a tool shank having a peripheral surface defining an outer periphery of the shank, the shank including an external thread integrally formed upon the peripheral surface and threadably engageable with the holder, the tool shank and the thread thereby formed as one piece, the tool shank further having a conical second bearing surface formed in the shank and defining a second cone angle, the second bearing surface positioned along the peripheral surface; the first and second cone angles define different angles; the first and second bearing surfaces are each shaped to directly contact and mate with a respective bearing surface of the holder; and the first and second bearing surfaces are adjacent to one another. 2. The tool according to claim 1 , wherein the first bearing face forms an inner angle of 80° to 89° with respect to the axis of rotation, and the second bearing face forms an inner angle of 1.5° to 7° with respect to the axis of rotation. 3. The tool according to claim 1 , wherein a third bearing face is provided on an inserted end of the tool shank and which has a spherical, cylindrical, or conical shape. 4. The tool according to claim 1 , wherein the outer thread contains a thread depth that declines toward the free end of the tool shank. 5. The tool according to claim 1 , wherein a gripper groove for the clamping of the rotary tool is provided on the tool shank. 6. The rotary tool of claim 1 , further including a plurality of key surfaces formed in a circumference of the tool head, the key surfaces shaped to matingly engage an automated tool changer to thereby enable rotation of the tool head by the automated tool changer to securely engage the rotary tool within a tool holder. 7. The rotary tool of claim 1 , wherein the thread is directly adjacent one of the two conical bearing faces. 8. A rotatable tool holder for a rotary tool, comprising: a holder opening with a tapered threaded inner surface threadably mateable with a tapered external surface of the rotary tool; a supporting region situated between a front side of the tool holder and the inner thread; the supporting region formed by two conical contact surfaces with different cone angles each shaped to directly contact and mate with corresponding surfaces of the rotary tool; cones which are defined by the two conical contact surfaces have apexes which point in the same direction; and the two conical contact surfaces are directly adjacent to one another. 9. The tool holder according to claim 8 , wherein the supporting region is formed by a first conical contact surface adjacent to the front side of the tool holder, with an inner angle of 80° to 89° with the axis of rotation, and a second conical contact surface, at an inner angle of 1.5° to 7° with the axis of rotation. 10. The tool holder according to claim 8 , wherein an inner bearing surface is provided at an inner end of the holder opening, and the inner bearing surface is designed as a cylindrical, spherical or conical contact surface. 11. The tool holder according to claim 8 , wherein the inner thread contains a thread depth that declines toward the inner end of the holder opening. 12. The tool holder according to claim 8 , wherein the tool holder contains a threaded insert for fixing the rotary tool. 13. A tool assembly, comprising: a rotary tool including: a tool head having a working surface and a conical head bearing surface formed in the tool head and defining a first cone angle; and a tool shank having a peripheral surface defining an outer periphery of the shank, the tool shank including an external thread integrally formed upon the peripheral surface, the tool shank and the thread thereby formed as one piece, the tool shank further having a conical shank bearing surface formed in the shank and defining a second cone angle, the shank bearing surface positioned along the peripheral surface; the first and second cone angles define different angles; cones defined by the first and second cone angles are coaxial and have apexes which point in the same direction; and the head and shank bearing surfaces are adjacent to one another; and a tool holder including: a holder opening; an inner thread formed upon a tapered inner surface of the holder and mateable with the thread of the tool shank; a front bearing surface situated upon a front side of the tool holder mateable with the head bearing surface; an inner bearing surface situated adjacent to the inner thread, the inner bearing surface mateable with the shank bearing surface; the front and inner bearing surfaces defining relatively different cone angles, the front and inner bearing surfaces shaped to directly and matingly engage with the head and shank bearing surfaces; and cones defined by the front and inner bearing surfaces point in the same direction and are adjacent to one another. 14. The tool assembly according to claim 13 , further including an additional supporting region formed by an interference fit between a leading end of the rotary tool shank and the tool holder. 15. The tool assembly according to claim 13 , wherein the outer thread of the rotary tool and the inner thread of the tool holder exhibit different thread contours which adjust to one another through elastic deformation when screwed together. 16. The tool assembly according to claim 13 , wherein the outer thread of the rotary tool has a smaller pitch than the inner thread of the tool holder. 17. The tool assembly according to claim 13 , wherein the outer thread is arranged on a threaded stem and the outer thread comprises a thread depth which decreases towards the free end of the threaded stem.