Cooling ducts for transformers' winding

The invention claimed is: 1. A winding arrangement for an electric installation, the winding arrangement comprising: an electric conductor coiled up around an axis and forming a plurality of layers; a plurality of cooling ducts, each one of said cooling ducts extending between a pair of mutually adjacent layers of said coiled electric conductor in an axial direction through the winding arrangement, and each one of said cooling ducts extending not entirely around the axis; each layer of said electric conductor contacting at least one said cooling duct, said cooling ducts being disposed in a spiral arrangement from inside to outside for making a uniform cooling on each turn and such that said cooling ducts form a circumferential structure around the axis that increases a diameter of the winding arrangement in a constant manner and that therefore ensures that the winding arrangement is substantially cylindrical; and said cooling ducts of said plurality of cooling ducts being distributed between more than one pair of said adjacent layers to render the winding arrangement to be substantially cylindrical. 2. The winding arrangement according to claim 1 , wherein each said cooling duct of said plurality of cooling ducts extends between a pair of adjacent layers of said coiled electric conductor maximally 180 degrees around the axis. 3. The winding arrangement according to claim 1 , wherein said plurality of cooling ducts are arranged such that said plurality of cooling ducts reaches around the axis. 4. The winding arrangement according to claim 1 , comprising two pluralities of cooling ducts, arranged in two spiral arrangements, and wherein each layer contacts two cooling ducts. 5. The winding arrangement according to claim 1 , wherein said electric conductor is a foil or a wire. 6. The winding arrangement according to claim 1 , wherein each said layer comprises one or a plurality of turns, and wherein said electric conductor is insulated so that each turn is insulated against adjacent turns. 7. The winding arrangement according to claim 1 , further comprising strips reinforcing said cooling ducts. 8. The winding arrangement of claim 7 , wherein said cooling ducts are formed by said strips, and said electrical conductor is spanned over said strips. 9. A method of producing the winding arrangement according to claim 1 , the method comprising: coiling up an electric conductor and thereby forming a plurality of layers of the electric conductor around an axis; placing a plurality of cooling ducts such that each cooling duct extends between a pair of adjacent layers of the coiled electric conductor in an axial direction through the winding arrangement and extends not entirely around the axis; and thereby distributing the cooling ducts of the plurality of cooling ducts among more than one pair of adjacent layers such that the winding arrangement is substantially cylindrical; wherein each layer of the electric conductor contacts at least one of the cooling ducts, the cooling ducts are disposed in a spiral arrangement from inside to outside for making a uniform cooling on each turn, and the cooling ducts form a circumferential structure around the axis that increases a diameter of the winding arrangement in a constant manner to therefore ensure that the winding arrangement is substantially cylindrical. 10. The method according to claim 9 , which comprises reinforcing the cooling ducts by strips extending parallel to the axis. 11. The method according to claim 10 , which comprises forming the cooling ducts from the strips and spanning the electrical conductor over the strips.