Rotatable drilling tool as well as basic body therefor

What is claimed is: 1. Rotatable drilling tool for chip removing machining comprising: a basic body; and an insert top that is detachably connectable to the basic body, wherein the insert top extends axially along a longitudinal axis between a front insert end having chip removing capacity and a rear coupling end, the front insert end having a cutting diameter that in an associated cross-section defines a cutting circle having the longitudinal axis as the center, wherein the basic body extends axially along a longitudinal axis between a front coupling end and a rear fixing end, and includes at least one chip flute, wherein each chip flute extends from the front coupling end toward the rear fixing end and is formed to receive a chip removed by the front insert end and to transport the chip to the rear fixing end when the insert top is connected to the basic body, wherein in the rear coupling end, the insert top has a male part that extends axially outward from the rear coupling end, wherein in the front coupling end, the basic body has a female part that extends from the front coupling end axially inward in the basic body, which female part is formed for the receipt of the male part of the insert top when the insert top is connected to the basic body, wherein the basic body comprises a wall portion between the female part and each at least one chip flute, wherein each chip flute, in each cross-section along the longitudinal axis of the basic body, has a depth, the depth in each cross-section is equal to a difference between a radius of the cutting circle and a radius of a greatest possible core circle that has the longitudinal axis as the center and that is tangent to a limiting curve of the chip flute in the cross-section, wherein the basic body is longitudinally divided into a coupling segment that extends axially rearward from the front coupling end of the basic body and into a transportation segment that is situated axially behind the coupling segment, and the transportation segment extends rearward toward the rear fixing end of the basic body and is longer than the coupling segment, wherein each chip flute extends through the coupling segment and the transportation segment, wherein the entire female part is situated in the coupling segment, wherein each chip flute has a smaller depth in the coupling segment than in the transportation segment, and wherein, for each chip flute, each cross-section along the axial length of the coupling segment has the same depth. 2. Rotatable drilling tool according to claim 1 , wherein the maximum difference between the depth of each chip flute in the transportation segment and in the coupling segment is 3% of the cutting diameter of the cutting circle. 3. Rotatable drilling tool according to claim 2 , wherein the minimal difference between the depth of each chip flute in the transportation segment and in the coupling segment is 0.5% of the cutting diameter of the cutting circle. 4. Rotatable drilling tool according to claim 1 , wherein the minimal difference between the depth of each one chip flute in the transportation segment and in the coupling segment is 0.5% of the cutting diameter of the cutting circle. 5. Rotatable drilling tool according to claim 1 , wherein the at least one chip flute in the coupling segment comprises a first concave surface that connects to a second concave surface in such a way that two valleys are formed in the at least one chip flute. 6. Rotatable drilling tool according to claim 5 , wherein, in each cross-section transverse to the female part in the coupling segment, the first concave surface connects to the second concave surface in an area that is situated so that the core circle becomes maximal. 7. Rotatable drilling tool according to claim 6 , wherein, in each cross-section transverse to the female part in the coupling segment, the first concave surface has a first curvature as well as a first arc length, and the second concave surface has a second curvature and a second arc length, wherein the first curvature is equal to the second curvature, and wherein a length of the first arc length is equally to a length of the second arc length. 8. Rotatable drilling tool according to claim 1 , wherein the at least one chip flute in the transportation segment comprises only one concave surface. 9. Rotatable drilling tool according to claim 1 , wherein the basic body comprises a cooling duct that in the transportation segment includes a central duct, wherein a wall portion between the at least one chip flute and the central duct in the transportation segment has a first smallest thickness and the wall portion between the at least one chip flute and the female part in the coupling segment has a second smallest thickness, and wherein the first smallest thickness is equal to the second smallest thickness. 10. Rotatable drilling tool according to claim 1 , wherein the male part comprises a central, cylindrical pin and the female part a central, cylindrical recess. 11. Rotatable drilling tool according to claim 1 , wherein the male part comprises a central pin having a first radial cross-sectional shape that includes two wedge-shaped converging linear surfaces connected by two curved surfaces of different curvature, wherein the female part comprises a central recess having a radial second cross-sectional shape that includes two non-parallel linear surfaces connected by two curved surfaces of different curvature, and wherein radial dimensions of the central recess are greater than radial dimensions of the central pin. 12. Rotatable drilling tool according to claim 1 , wherein the basic body comprises two chip flutes that in the longitudinal direction extend in a helix shape and wherein, in each cross-section, the two chip flutes have the same depth. 13. Rotatable drilling tool according to claim 1 , wherein the basic body comprises two driver branches that extend axially outward from the coupling end and that are arranged to receive the insert top between themselves for the transfer of torque to the insert top. 14. Rotatable drilling tool according to claim 1 , wherein the coupling segment comprises a locking screw that from the outside of the coupling segment is actuatable to press against a contact surface of the male part when the insert top is connected to the basic body. 15. Basic body for a rotatable drilling tool for chip removing machining, comprising: a body portion that extends axially along a longitudinal axis between a front coupling end and a rear fixing end; and at least one chip flute in the body portion, wherein each chip flute extends from the front coupling end toward the rear fixing end and is formed to receive a chip and to transport the chip to the rear fixing end, wherein in the front coupling end, the body portion has a female part that extends from the front coupling end axially inward in the body portion, which female part is formed for receipt of a male part of an insert top when the insert top is connected to the body portion, wherein the basic body comprises a wall portion between the female part and each at least one chip flute, wherein each chip flute, in each cross-section along the longitudinal axis of the body portion, has a depth, and the depth in each cross-section is equal to a difference between a radius of the cutting circle and a radius of a greatest possible core circle that has the longitudinal axis as the center and that is tangent to a limiting curve of the chip flute in the cross-section, wherein the body portion is longitudinally divided into a coupling segment that extends axially rearward from th