Stator Having Winding Cooling for an Electrical Machine

What is claimed is: 1 . A stator for an electrical machine having a central axis, the stator comprising: a stator winding; and a stator yoke having a plurality of slots; wherein the stator winding includes a plurality of conductor segments connected to one another, wherein each conductor segment has one respective axially internal inner section and two respective axially external outer sections; wherein the respective inner section of each conductor segment is embedded into a respective slot; wherein ducts for coolant flow in the axial direction are formed at least in a portion of each of the slots; wherein the stator defines, at least in a first axial end region, a first coolant chamber fluidically encapsulated from a surrounding area, wherein the first coolant chamber surrounds at least a portion of the respective outer sections of each of the conductor segments situated in the first axial end region; and wherein the first coolant chamber is fluidically connected to the ducts to conduct coolant into and/or out of the ducts. 2 . The stator as claimed in claim 1 , wherein: the first coolant chamber, in the first axial end region, feeds coolant into the ducts; and an opposite second axial end region defines a coolant outlet side of the ducts. 3 . The stator as claimed in claim 2 , further comprising electrical connections for the stator winding to be connected to an outer electrical circuit, wherein the electrical connections are arranged exclusively in the second axial end region. 4 . The stator as claimed in claim 1 , further comprising, in a second axial end region opposite the first axial end region, a second coolant chamber fluidically encapsulated in relation to a surrounding area; Wherein the second coolant chamber surrounds at least a portion of the respective outer sections of the conductor segments situated in the second axial end region. 5 . The stator as claimed in claim 1 , wherein: the stator yoke is connected, in the first axial end region, to a covering plate; the first coolant chamber is sealed off in a fluid-tight manner in relation to the covering plate; and the covering plate defines a plurality of openings fluidically coupling the first coolant chamber to the ducts. 6 . The stator as claimed in claim 1 , wherein the stator winding includes, in the region of the inner sections, an impregnating agent fluidically sealing off the ducts in relation to an outer surrounding area. 7 . The stator as claimed in claim 1 , wherein: the stator winding is formed by electrically connecting a large number of prefabricated hairpin-shaped conductor elements; and each of the hairpin-shaped conductor elements includes two inner sections. 8 . The stator as claimed in claim 1 , wherein the stator winding is formed by electrically connecting a number of prefabricated rod-shaped and/or L-shaped conductor elements. 9 . The stator as claimed in claim 1 , wherein: the ducts are defined by intermediate spaces between the respective inner sections of the conductor segments extending in the axial direction; or the ducts are defined by coolant pipes within which the respective inner sections are arranged. 10 . The stator as claimed in claim 1 , wherein: for at least some of the conductor segments, the respective inner sections comprise hollow conductors; and the ducts are defined by interiors of the respective conductors. 11 . The stator as claimed in claim 10 , wherein, for at least some of the conductor segments, the inner sections comprise solid conductors. 12 . The stator as claimed in claim 10 , wherein the hollow conductors are electrically connected to one another by conductor sections in solid form. 13 . The stator as claimed in claim 10 , wherein: some of the respective outer sections of the conductor segments comprise hollow conductors; and the hollow conductors include, in the region of the outer sections, openings to feed coolant into the hollow conductor and/or conduct coolant out of the hollow conductor. 14 . An electrical machine comprising: a rotor; a stator winding; and a stator yoke having a plurality of slots; wherein the stator winding includes a plurality of conductor segments connected to one another, wherein each conductor segment has one respective axially internal inner section and two respective axially external outer sections; wherein the respective inner section of each conductor segment is embedded into a respective slot; wherein ducts for coolant flow in the axial direction are formed at least in a portion of each of the slots; wherein the stator defines, at least in a first axial end region, a first coolant chamber fluidically encapsulated from a surrounding area, wherein the first coolant chamber surrounds at least a portion of the respective outer sections of each of the conductor segments situated in the first axial end region; and wherein the first coolant chamber is fluidically connected to the ducts to conduct coolant into and/or out of the ducts. 15 . The electrical machine as claimed in claim 14 , wherein there is no can.