Milling tool

The invention claimed is: 1. A milling tool for the hobbing of a workpiece having cogs, such as cogwheels, and racks, comprising: a cylindrical tool body, which defines a rotation axis and including a plurality of disc-shaped segments, each of the plurality of segments including a hub part and a peripheral cam having a plurality of tangentially spaced-apart milling inserts, bordering segments being detachably and torsionally rigidly interconnected, wherein each of the plurality of segments has a through hole situated on the rotation axis, which holes are directed in such a way in relation to each other that a central duct is formed in the cylindrical tool body, the central duct being a cooling medium duct; and a first end piece having opposed sides, one side being detachably and torsionally rigidly interconnected with a first one of the plurality of segments, and the other side having coupling members for torsionally rigid coupling to a source of torque in such a way that all torque from the source is supplied to the cylindrical tool body via only the first end piece. 2. A milling tool for the hobbing of a workpiece having cogs, such as cogwheels, and racks comprising: a cylindrical tool body, which defines a rotation axis and including a plurality of disc-shaped segments, each of the plurality of segments including a hub part and a peripheral cam having a plurality of tangentially spaced-apart milling inserts bordering segments being detachably and torsionally rigidly interconnected, wherein each of the plurality of segments has a through hole situated on the rotation axis, which holes are directed in such a way in relation to each other that a central duct is formed in the cylindrical tool body; and a first end piece having opposed sides, one side being detachably and torsionally rigidly interconnected with a first one of the plurality of segments, and the other side having coupling members for torsionally rigid coupling to a source of torque in such a way that all torque from the source is supplied to the cylindrical tool body via only the first end piece, the central duct being a cooling medium duct, wherein the bordering segments are interconnected by a respective one of male and female members co-operating in pairs, the male and female members being situated so that the rotation axis extends through the male and female members, and the central cooling medium duct extends through the male and female members along an extension thereof in the cylindrical tool body. 3. A milling tool according to claim 2 , wherein the first end piece and the first one of the plurality of segments are interconnected by a respective one of said male and female members co-operating in pairs, and the coupling member of the first end piece is a male member of the same type, the male and female members being situated so that the rotation axis extends through the male and female members. 4. A milling tool according to claim 3 , further comprising a second end piece having opposed sides, one side being detachably and torsionally rigidly interconnected with a last one of the plurality of segments and the other side having bearing members for rotatable bearing in a support, the second end piece and the last segment being interconnected by a respective one of said male and female members co-operating in pairs, the male and female members as well as the bearing member being situated so that the rotation axis extends through the male and female members as well as the bearing member. 5. A milling tool according to claim 4 , wherein the bearing member includes a neck locatable in a neck bearing of the support. 6. A milling tool according to claim 2 , wherein the hub part includes two opposite plane-parallel end surfaces, the first end piece and the second end piece each having a plane-parallel end surface facing the respective bordering segment, each plane-parallel end surface extending perpendicular to the rotation axis, and wherein each of the male and female members include a contact surface, which converges from a large end toward a small end and which in a cross-section across the rotation axis forms an out-of-round curve, each contact surface of the male and female members being dimensioned to, when the male and female members are brought together, direct the two bordering segments thereof toward an end position that is centred and mutually angularly determined by the out-of-round cross-section curve around the rotation axis where the plane-parallel end surfaces abut against each other. 7. A milling tool according to claim 6 , wherein the contact surface of the male member has a radial excess dimension in relation to the contact surface of the female member so that in the assembled state of the tool, the contact surface of the female member abuts with pressure against the contact surface of the male member. 8. A milling tool according to claim 6 , wherein in the assembled state of the tool there is a gap disposed between the small end of the male member and the small end of the female member. 9. A milling tool according to claim 6 , wherein each individual contact surface of the male and female members converges at an angle of convergence from at least 2° and at most 20°. 10. A milling tool according to claim 6 , wherein each individual contact surface has a trigonal cross-sectional shape, which is defined by the following formulas: x = ( D m 2 ) · cos ⁡ ( γ ) - 2 · a · cos ⁡ ( 2 ⁢ ⁢ γ ) + a · cos ⁡ ( 4 ⁢ ⁢ γ ) y = ( D m 2 ) · sin ⁡ ( γ )