Belt tensioner

The invention claimed is: 1. A belt tensioner for an auxiliary-unit belt drive, which auxiliary-unit belt drive includes a generator having a generator housing, a generator shaft, and a generator pulley, around which a belt is wrapped, comprising: a first and second tensioning arms supported on the generator housing in pivotable in relation to each other and in relation to the generator and which enclose the generator shaft, a first and second tensioning rollers attached to the first and second tensioning arms respectively and configured to apply pre-tensioning force to the belt in a circulation direction thereof before and after the generator pulley, and a bow spring configured to produce the pre-tensioning force, wherein the bow spring is clamped between the tensioning arms in axial overlap with the tensioning rollers, wherein the tensioning arms restrict an arcuate spring space that accommodates the bow spring, and a wrap-around region of the generator pulley and is limited by two walls of a first tensioning arm, wherein the bow spring is clamped between a first wall of the two walls and a driver of the second tensioning arm, wherein the driver includes a protrusion that protrudes axially with respect to a circular-ring shaped end face of the second tensioning arm and protrudes into the arcuate spring space before a second wall of the two walls. 2. The belt tensioner of claim 1 , wherein the bow spring is attached onto the two walls, wherein the second wall of the two walls includes a recess that accommodates the driver when the second tensioning arm is mounted to the first tensioning arm. 3. The belt tensioner of claim 1 , wherein a circumference of the bow spring and one or more sliding blocks are configured to support a reaction force of the bow spring in a radial outer direction toward an inner sheath of the arcuate spring space and in axial direction toward a floor of the arcuate spring space or a circular-ring shaped end face of the second tensioning arm facing the arcuate spring space. 4. The belt tensioner of claim 1 , wherein the second tensioning arm is supported in such a way that it has no contact with the generator housing. 5. The belt tensioner of claim 4 , wherein the second tensioning arm is provided with a glide coating for a mutual radial and axial support of the tensioning arms. 6. The belt tensioner of claim 1 , wherein the arcuate spring space is limited by an arcuate curvature of the first tensioning arm, wherein on an outer side of the arcuate curvature, a bearing ring is attached on the generator housing for pivot bearing of the belt tensioner. 7. The belt tensioner of claim 6 , wherein the belt tensioner is pivotally mounted to the generator, wherein the bearing ring is covered with a glide coating and supported in axial direction between an end face of the generator housing and an end face of a bearing cover attached on the generator housing. 8. The belt tensioner of claim 7 , wherein the end face of the generator housing is part of a depression, wherein the generator housing further includes an inner sheath of which the glide coating of the bearing ring is supported in a radial direction. 9. The belt tensioner of claim 8 , wherein the bearing cover includes a planar sheet metal part. 10. A belt tensioner, comprising: a first and second tensioning arm supported on a generator housing; a first and second tensioning roller attached to the first and second tensioning arms respectively and configured to apply a pre-tensioning force to an auxiliary-unit belt drive; and a bow spring clamped between the first and second tensioning arms in axial overlap with the first and second tensioning rollers and configured to produce the pre-tensioning force; and a driver of the second tensioning arm, wherein the driver includes a protrusion that protrudes axially with respect to a circular-ring shaped end face of the second tensioning arm and protrudes into an arcuate spring space before a second wall of the first tensioning arm, wherein the first and second tensioning arms restrict the arcuate spring space that accommodates the bow spring, and a wrap-around region of a generator pulley that is limited by a first wall of the first tensioning arm, wherein the bow spring is clamped between the first wall and the driver. 11. The belt tensioner of claim 10 , wherein the bow spring is clamped between the first wall of the first tensioning arm that includes a recess, and the driver of the second tensioning arm. 12. The belt tensioner of claim 11 , wherein the driver protrudes axially with respect to the circular-ring shaped end face of the second tensioning arm and protrudes into an arcuate spring space before the second wall. 13. The belt tensioner of claim 10 , the first and second tensioning arms restrict the arcuate spring space that accommodates the bow spring, and a circumferential extent that runs in the wrap-around region of the generator pulley is limited by the first wall and the second wall of the first tensioning arms. 14. The belt tensioner of claim 10 , wherein at an external arc of the bow spring includes one or more sliding blocks configured to support a reaction force in a radial direction. 15. The belt tensioner of claim 10 , wherein the bow spring includes a first spring end attached at a low pre-tension at the first wall. 16. A belt tensioner, comprising: a bow spring configured to produce a pre-tensioning force, wherein the bow spring is clamped between a first and second tensioning arms in axial overlap with first and second tensioning rollers, wherein the second tensioning arm includes a driver, wherein the bow spring is clamped between a first wall of the first tensioning arm and the driver of the second tensioning arm, wherein the bow spring is in axial overlap of a wrap-around region of a generator pulley of the belt tensioner and the driver of the second tensioning arm, wherein the driver includes a protrusion that protrudes axially with respect to a circular-ring shaped end face of the second tensioning arm and protrudes into an arcuate spring space before a second wall of the first tensioning arm. 17. The belt tensioner of claim 16 , wherein the bow spring is accommodated in parallel fashion to a belt plane in the respective arcuate spring space of the first tensioning arm. 18. The belt tensioner of claim 16 , wherein the bow spring includes one or more sliding blocks configured to support a reaction force of the bow spring. 19. The belt tensioner of claim 18 , wherein the one or more sliding blocks are configured to support the reaction force of the bow spring in a radial outer direction. 20. The belt tensioner of claim 18 , wherein the one or more sliding blocks are configured to support the reaction force of the bow spring in bilateral axial direction at the first tensioning arm.