Slip ring body

The invention claimed is: 1. A slip ring body for electrically contacting an asynchronous machine, said slip ring body comprising: first and second slip rings rigidly connected to one another; and at least two conductor bars fastened to the first slip ring and at least two conductor bars fastened to the second slip ring; wherein at least one of the first and second slip rings has a recess for passage of the conductor bars of the other one of the first and second slip rings, at least one of the first and second slip rings defining around the recess a first region which has a magnetic conductivity that is lower than a magnetic conductivity in a second region in which the conductor bars to the one of the first and second slip rings are fastened, or the second region is embodied for contacting with an energy-transmitting brush, said first and second regions being made in the absence of copper, said at least one of the first and second slip rings having in the first region around the recess an axial material thickness which is lower than an axial material thickness in other regions of the one of the first and second slip rings. 2. The slip ring body of claim 1 , wherein the other regions include an outer annular region and the first region includes an inner annular region, said recess being arranged in the inner annular region. 3. The slip ring body of claim 1 , further comprising an electrically insulating material placed in radially surrounding relation to the conductor bars in a region where the conductor bars are guided through the recess, and a material placed in surrounding relation to the electrically insulating material and having an electrical conductivity which is higher than an electrical conductivity of the electrically insulating material. 4. The slip ring body of claim 1 , further comprising: a hub; and a sleeve placed in surrounding relation to the hub and arranged in a radially inner region of at least one of the first and second rings, said sleeve having a high electrical conductivity. 5. The slip ring body of claim 4 , wherein the sleeve is manufactured from aluminum. 6. The slip ring body of claim 4 , wherein the hub is made of a material of low magnetic conductivity. 7. An electric machine, comprising a slip ring body as set forth in claim 1 . 8. The electric machine of claim 7 , wherein the other regions include an outer annular region and the first region includes an inner annular region, said recess being arranged in the inner annular region. 9. The electric machine of claim 7 , wherein the one of the first and second slip rings includes an electrically insulating material placed in radially surrounding relation to the conductor bars in a region where the conductor bars are guided through the recess, and a material placed in surrounding relation to the electrically insulating material and having an electrical conductivity which is higher than an electrical conductivity of the electrically insulating material. 10. The electric machine of claim 7 , wherein the one of the first and second slip rings includes a hub, and a sleeve placed in surrounding relation to the hub and arranged in a radially inner region of at least one of the first and second rings, said sleeve having a high electrical conductivity. 11. The electric machine of claim 10 , wherein the sleeve is manufactured from aluminum. 12. The electric machine of claim 10 , wherein the hub is made of a material of low magnetic conductivity. 13. The electric machine of claim 7 , wherein the electric machine comprises an asynchronous machine. 14. A slip ring body for electrically contacting an asynchronous machine, said slip ring body comprising: first and second slip rings rigidly connected to one another; and at least two conductor bars fastened to the first slip ring and at least two conductor bars fastened to the second slip ring, wherein at least one of the first and second slip rings has a recess for passage of the conductor bars of the other one of the first and second slip rings, at least one of the first and second slip rings defining around the recess a first region in which air is at least partially present and said first region has a magnetic conductivity that is lower than a magnetic conductivity in a second region in which the conductor bars to the one of the first and second slip rings are fastened, or the second region is embodied for contacting with an energy-transmitting brush, said first and second regions being made in the absence of copper, said recess defining an opening cross-sectional area which is greater than a cross-sectional area of the conductor bars fastened to the one of the first and second slip rings. 15. The slip ring body of claim 14 , wherein the opening cross-sectional area of the recess is sized twice as large as the cross-sectional area of the conductor bars fastened to the one of the first and second slip rings. 16. The slip ring body of claim 14 , wherein the opening cross-sectional area of the recess is sized four times as large as the cross-sectional area of the conductor bars fastened to the one of the first and second slip rings. 17. An electric machine, comprising a slip ring body, said slip ring body comprising first and second slip rings rigidly connected to one another, and at least two conductor bars fastened to the first slip ring and at least two conductor bars fastened to the second slip ring, wherein at least one of the first and second slip rings has a recess for passage of the conductor bars of the other one of the first and second slip rings, at least one of the first and second slip rings defining around the recess a first region in which air is at least partially present and said first region has a magnetic conductivity that is lower than a magnetic conductivity in a second region in which the conductor bars to the one of the first and second slip rings are fastened, or the second region is embodied for contacting with an energy-transmitting brush, said first and second regions being made in the absence of copper, said recess defining an opening cross-sectional area which is greater than a cross-sectional area of the conductor bars fastened to the one of the first and second slip rings. 18. The electric machine of claim 17 , wherein the opening cross-sectional area of the recess is sized twice as large as the cross-sectional area of the conductor bars fastened to the one of the first and second slip rings. 19. The electric machine of claim 17 , wherein the opening cross-sectional area of the recess is sized four times as large as the cross-sectional area of the conductor bars fastened to the one of the first and second slip rings. 20. The electric machine of claim 17 , wherein the electric machine comprises an asynchronous machine.