Ball screw nut and method for producing a ball screw nut

The invention claimed is: 1. A ball screw nut for a ball screw drive, comprising: a sheet metal sleeve element with a thread having a load channel and a relief portion, the relief portion configured to be displaced radially outwards from an adjacent thread portion via at least one incision extending in a direction of the thread, and the relief portion configured as a transition portion between the load channel and a deflection channel such that a first end of the relief portion is connected to the load channel, and a second end of the relief portion is connected to the deflection channel. 2. The ball screw nut according to claim 1 , wherein the relief portion is displaced radially outwards via bending of the relief portion. 3. The ball screw nut according to claim 1 , wherein the relief portion is delimited in both axial directions of the sleeve element by an incision of the at least one incision. 4. The ball screw nut according to claim 2 , wherein the relief portion is divided in the middle by a single incision. 5. The ball screw nut according to one claim 1 , wherein the relief portion adjoins the deflection channel. 6. The ball screw nut according to claim 5 , wherein the sleeve element is inserted into an annular carrier part on an inner peripheral surface of which are formed recesses of a first type into which engages the sleeve element in a region of the relief portion, as well as at least one recess of a second type adjoining the recesses of the first type, which recess is deeper than the recesses of the first type and is designed to receive the deflection channel. 7. The ball screw nut according to claim 1 , wherein the deflection channel is configured as part of an outer deflection and is formed by a separate element made of plastic. 8. The ball screw nut according to claim 1 wherein the deflection channel is configured as part of a frontal deflection. 9. The ball screw nut according to claim 1 , wherein the sleeve element has a reduced wall thickness in a region of the relief portion. 10. A method of producing a ball screw nut, comprising: providing a metal blank and an annular carrier part, generating a sleeve element comprising a ball track by shaping a thread in the metal blank, the thread being formed over a majority of a length thereof as at least one load channel and one end of one of the at least one load channel merging into a relief portion, the relief portion displaced outwards from the load channel in a radial direction of the sleeve element via at least one incision, and inserting the sleeve element into the annular carrier part, the relief portion being forced inwards by the carrier part to such an extent that the sleeve element with an outer wall thereof also lies within an area of the relief portion, as well as with the one of the at least one load channel, on the carrier part and, an inside diameter of a wall of the sleeve element shaped as a thread remains enlarged in the area of the relief portion compared to the one of the at least one load channel, and wherein the relief portion is configured as a transition portion between the one of the at least one load channel and a deflection channel such that a first end of the relief portion is connected to the one of the at least one load channel, and a second end of the relief portion is connected to the deflection channel. 11. The method of claim 10 wherein the thread is formed in the metal blank via a process that does not produce shavings or chips. 12. A ball screw nut for a ball screw drive, comprising: a sheet metal sleeve element with a thread having: a load channel having a first thread configured to engage a ball in a first position defined by a first pitch circle radius; and a relief portion having a second thread axially adjacent to the first thread, the second thread configured to engage the ball in a second position defined by a second pitch circle radius greater than the first pitch circle radius; and a deflection element, and the relief portion configured as a transition portion between the load channel and the deflection element such that a first end of the relief portion is connected to the load channel, and a second end of the relief portion is connected to the deflection element. 13. The ball screw nut according to claim 12 , wherein the relief portion is displaced radially outwards with respect to the load channel via an incision extending in a direction of the thread. 14. The ball screw nut according to one claim 12 , wherein the deflection element is part of a single deflection. 15. The ball screw nut according to claim 12 , wherein the deflection element is part of an outer deflection and is made of plastic. 16. The ball screw nut according to claim 12 , wherein the deflection element is part of a frontal deflection. 17. The ball screw nut according to claim 12 , wherein the second thread has a reduced wall thickness relative to the first thread. 18. The ball screw nut of claim 1 , wherein an outer diameter of the sleeve element is enlarged in a region of the relief portion. 19. The ball screw nut of claim 12 , wherein the second thread has an expanded second outer diameter relative to a first outer diameter of the first thread. 20. The method of claim 10 , wherein the relief portion is displaced outwards via bending of the relief portion.