Belt pulley decoupler

The invention claimed is: 1. A belt pulley decoupler for transmitting a drive torque from belts of an auxiliary unit belt drive to a shaft of one of the auxiliary units, the belt pulley decoupler comprising: a belt pulley, a hub adapted to be mounted on the shaft, a series circuit arranged in a flow of drive torque between the belt pulley and the hub including a decoupler spring and a wrap-around band having first and second wrap-around band ends that extends in a direction of a rotational axis of the belt pulley decoupler and is arranged radially between the belt pulley and the decoupler spring, a first sleeve locked in rotation in the belt pulley, the first and second wrap-around band ends widen radially while transmitting the drive torque, the first wrap-around band end extending in a flow direction of the drive torque on a side of the belt pulley is tensioned against an inner lateral surface of the first sleeve, a second sleeve rotatably supported in the first sleeve, the second wrap-around band end extending in the flow direction of the drive torque on a side of the decoupler spring is tensioned against an inner lateral surface of the second sleeve, and the first sleeve has circumferentially distributed openings for mounting of the wrap-around band in the first sleeve in a rotational bearing section for the second sleeve. 2. The belt pulley decoupler according to claim 1 , wherein the first sleeve and the second sleeve are formed sheet metal parts. 3. A belt pulley decoupler for transmitting a drive torque from belts of an auxiliary unit belt drive to a shaft of one of the auxiliary units, the belt pulley decoupler comprising: a belt pulley, a hub adapted to be mounted on the shaft, a series circuit arranged in a flow of drive torque between the belt pulley and the hub including a decoupler spring and a wrap-around band having first and second wrap-around band ends that extends in a direction of a rotational axis of the belt pulley decoupler and is arranged radially between the belt pulley and the decoupler spring, a first sleeve locked in rotation in the belt pulley, the first and second wrap-around band ends widen radially while transmitting the drive torque, the first wrap-around band end extending in a flow direction of the drive torque on a side of the belt pulley is tensioned against an inner lateral surface of the first sleeve, a second sleeve rotatably supported in the first sleeve, the second wrap-around band end extending in the flow direction of the drive torque on a side of the decoupler spring is tensioned against an inner lateral surface of the second sleeve, the first sleeve is a unitary part including a first diameter step integrally formed in one piece with the first sleeve that provides an axial stop for the second sleeve and a second diameter step integrally formed in one piece with the first sleeve that provides an axial stop for the wrap-around band. 4. The belt pulley decoupler according to claim 1 , wherein the decoupler spring is a helical torsion spring that extends in the direction of the rotational axis of the belt pulley decoupler, and includes a drive-side spring end that contacts a first spring plate locked in rotation with the second sleeve and includes a driven-side spring end that contacts a second spring plate locked in rotation with the hub and transmits the drive torque by a pressure contact between circumferential end sides of the drive-side and driven-side spring ends and circumferential steps of the first and second spring plates, the drive-side and driven-side spring ends form mutual rotational stops with the first and second spring plates, said rotational stops limit a relative rotation of the drive-side and driven-side spring ends relative to the first and second spring plates, respectively, increasing a circumferential distance between the circumferential end sides of the drive-side and driven-side spring ends and the circumferential steps of the first and second spring plates. 5. The belt pulley decoupler according to claim 4 , wherein the rotational stops comprise rotational locking contours that allow, up to locking, a relative rotation of the drive-side and driven-side spring ends relative to the first and second spring plates decreasing a circumferential distance between the circumferential end sides of the drive-side and driven-side spring ends and the circumferential steps of the drive-side and driven-side spring plates. 6. The belt pulley decoupler according to claim 5 , wherein the rotational locking contours are formed on a side of each of the spring plates by circumferential, wedge-shaped, rising projections and the spring drive-side and driven-side ends include axial recesses, in which the projections are locked. 7. The belt pulley decoupler according to claim 6 , wherein the second spring plate that is locked in rotation with the hub is formed integrally with the hub and has an outer lateral surface with a circumferential groove, and the hub is rotatably supported by a sliding bearing ring arranged in the circumferential groove for rotation in the belt pulley. 8. The belt pulley decoupler according to claim 7 , wherein the first spring plate that is locked in rotation with the second sleeve is formed integrally with the second sleeve as a formed sheet metal part. 9. The belt pulley decoupler according to claim 8 , the formed sheet metal part has an axial, ramp-shaped rising spring contact surface that is formed by circular arc-shaped formations that are spaced apart from each other circumferentially in the formed sheet metal part. 10. A belt pulley decoupler for transmitting a drive torque, the belt pulley decoupler comprising: a belt pulley, a hub adapted to be mounted on a shaft, a decoupler spring located around the hub and extending in an axial direction, a wrap-around band having first and second wrap-around band ends that extends in the axial direction and is arranged radially between the belt pulley and the decoupler spring, the first and second wrap-around band ends widen radially while transmitting the drive torque, a first sleeve that is locked in rotation in the belt pulley and having an inner lateral surface against which the first wrap-around band end is tensioned, a second sleeve rotatably supported in the first sleeve and having a second sleeve inner lateral surface against which the second wrap-around band end is tensioned, and the first sleeve has circumferentially distributed openings to access the wrap-around band located in a rotational bearing section for the second sleeve in the first sleeve. 11. The belt pulley decoupler according to claim 10 , wherein the decoupler spring and the wrap-around band are coaxially arranged coil springs. 12. The belt pulley decoupler according to claim 10 , wherein the first sleeve and the second sleeve are formed sheet metal parts. 13. The belt pulley decoupler according to claim 10 , further comprising a first spring plate locked in rotation with the second sleeve and a second spring plate locked in rotation with the hub, the first and second spring plates including respective circumferential steps, the decoupler spring includes a drive-side spring end that contacts the first spring plate and a driven-side spring end that contacts the second spring plate to transmit the drive torque by a pressure contact between circumferential end sides of the drive-side and driven-side spring ends and the respective circumferential steps. 14. The belt pulley decoupler according to claim 13 , wherein the drive-side and driven-side spring ends form mutual rotational stops with the first and second spring plates, said rotational sto