Anti-vibration damper

The invention claimed is: 1. An anti-vibration damper for tools for machining and chip forming machining of metallic work pieces, the anti-vibration damper comprising: a tool member having at least one hollow cylindrical space defining an axis; and a vibration damping device received in the cylindrical space, the vibration damping device including a number of rotationally symmetrical members each having an upper and a lower surface and a circumferential edge surface connecting the upper and lower surfaces and defining a same common diameter of said members which are stacked on top of each other about said axis to form a stack, wherein at least a part of said mutually facing upper and lower surfaces of adjacent members are spaced at a distance from each other by elastically deformable elements, wherein an outer diameter of said stack of rotationally symmetric members is smaller than an inner diameter of the hollow cylindrical space of said tool member thereby providing a cylindrical gap which is substantially filled with spherical balls each having a ball diameter, wherein a clear gap width between the inner diameter of the hollow cylindrical space and the common outer diameter of said stack of rotationally symmetric members deviates from any integer sum of the ball diameters. 2. The anti-vibration according to claim 1 , wherein at least a part of said upper and lower surfaces of adjacent members frictionally engage each other. 3. The anti-vibration according to claim 1 , wherein all of the balls have the same common ball diameter and the clear gap width is between 1.2 to 1.80 and 2.20 to 2.8 times the ball diameter. 4. The anti-vibration according to claim 1 , wherein the ball diameter is in the rage of 1/20 to ⅓ of the outer diameter of the stack of rotationally symmetric members. 5. The anti-vibration according to claim 1 , wherein the common axis is aligned along an axis of rotation of a rotatable tool member. 6. The anti-vibration according to claim 1 , wherein said rotationally symmetric members comprise have a substantially cylindrical outer surface. 7. The anti-vibration according to claim 1 , wherein the rotationally symmetric members are formed in the shape of annular disks. 8. The anti-vibration according to claim 1 , wherein the elastically deformable elements having a modulus of elasticity in the range of 2 to 10 N/mm 2 . 9. The anti-vibration according to claim 1 , wherein the rotationally symmetric members are comprised of high density hard material having a density of at least 13 g/cm 3 , such as cemented carbide. 10. The anti-vibration according to claim 1 , wherein each of the circular disks includes a central hole of the same diameter, wherein the disks are fitted about a common shaft extending through said central holes. 11. The anti-vibration according to claim 1 , wherein the inner edges of at least some the disks are chamfered. 12. The anti-vibration according to claim 1 , wherein the inner diameter of the disk holes is larger than outer diameter of the common shaft, wherein O-rings are provided between the shaft and the disks, said O-rings having a cross section which has a larger minimum diameter than the difference between a shaft radius and radius of disk holes, the O-rings being provided in a gusset formed by chamfered edges of adjacent disks and a wall of the shaft, such that the mutually facing surfaces of said disks are spaced by said O-rings and a cylindrical gap is formed between the inner walls of the disk holes and the cylindrical shaft which gap is bridged by at least a part of the cross section of said O-rings. 13. The anti-vibration according to claim 1 , wherein the chamfered edges of the disk holes are provided at least on one side of each disk and the disks are stacked in pairs with mutually facing surfaces being in contact with each other while adjacent pairs of disks are spaced apart by said elastic O-rings. 14. The anti-vibration according to claim 1 , wherein the disk and shaft arrangement is axially floating within a small clearance inside the hollow cylindrical space and in particular rotatable within a layer of balls surrounding the stack of disks. 15. The anti-vibration according to claim 1 , wherein the shaft comprises includes a widened head portion or supporting disk with a chamfered or truncated conical end surface in engagement with a conical end wall of the hollow cylindrical space. 16. The anti-vibration according to claim 14 , wherein the axial ends of the hollow cylindrical space are closed to limit axial play of the stack of disks and the surrounding layer of balls. 17. The anti-vibration according to claim 1 , wherein one end of the hollow cylindrical space is closed by a removable and adjustable plate or plug. 18. The anti-vibration according to claim 1 , comprising a plurality of hollow cylindrical spaces including damping means, said hollow spaces being arranged symmetrically with respect of an axis of rotation and with their axes parallel thereto. 19. A rotatable tool for the machining of metallic work pieces, comprising: a hollow cylindrical space defining an axis; and an anti-vibration damping device disposed in the cylindrical space, the anti-vibration damping device including a plurality of rotationally symmetrical members each having an upper and a lower surface and a circumferential edge surface connecting the upper and lower surfaces and defining a same common diameter of said members, which are stacked on top of each other about said axis to form a stack, wherein at least a part of said mutually facing upper and lower surfaces of adjacent members are spaced at a distance from each other by elastically deformable elements, wherein an outer diameter of said stack of rotationally symmetric members is smaller than an inner diameter of the hollow cylindrical space of said tool member thereby providing a cylindrical gap which is substantially filled with spherical balls each having a ball diameter, wherein a clear gap width between the inner diameter of the hollow cylindrical space and the common outer diameter of said stack of rotationally symmetric members deviates from any integer sum of the ball diameters. 20. A stationary tool for machining and/or turning of metallic work pieces, comprising: a hollow cylindrical space defining an axis; and an anti-vibration damping device disposed in the cylindrical space, the anti-vibration damping device including a plurality of rotationally symmetrical members each having an upper and a lower surface and a circumferential edge surface connecting the upper and lower surfaces and defining a same common diameter of said members, which are stacked on top of each other about said axis to form a stack, wherein at least a part of said mutually facing upper and lower surfaces of adjacent members are spaced at a distance from each other by elastically deformable elements, wherein an outer diameter of said stack of rotationally symmetric members is smaller than an inner diameter of the hollow cylindrical space of said tool member thereby providing a cylindrical gap which is substantially filled with spherical balls each having a ball diameter, wherein a clear gap width between the inner diameter of the hollow cylindrical space and the common outer diameter of said stack of rotationally symmetric members deviates from any integer sum of the ball diameters. 21. The anti-vibration damper according to claim 3 , wherein the clear gap width is between 1.2 to 1.65 and 1.75 to 2.8 times the ball diameter.