Drive device for a compaction device on a spinning machine

The invention claimed is: 1. A compaction device for compacting a sliver on a spinning machine, comprising: a revolving compaction element actuated by suction air, the compaction element further comprising a drive element that, in an operating position of the compaction device in the spinning machine, forms a drive connection with a driven element of the spinning machine; a first gearing stage defined between the drive element and the driven element of the spinning machine in the installed position of the compaction device on the spinning machine; the compaction element driven by a rotatably supported projection; a second gearing stage between the drive element and the rotatably supported projection; and wherein the drive element has a ring-shaped configuration with an inner diameter surface that rests on a partial area of a circular peripheral surface of the rotatably supported projection to define the second gearing stage. 2. The compaction device as in claim 1 , wherein the ring-shaped drive element comprises a toothed surface on an outer diameter surface thereof that engages with drive teeth on the driven element of spinning machine in the installed position of the compaction device on the spinning machine. 3. The compaction device as in claim 2 , wherein the ring-shaped drive element comprises a toothed surface on the inner diameter surface that engages with teeth on the surface of the rotatably supported projection. 4. The compaction device as in claim 1 , wherein the ring-shaped drive element comprises a friction wheel. 5. The compaction device as in claim 1 , wherein the compaction element comprises a first rotatably supported suction drum. 6. The compaction device as in claim 5 , wherein the first rotatably supported projection is axially aligned and connected to the suction drum. 7. The compaction device as in claim 6 , further comprising a closure cap fitted on a free end of the rotatably supported projection, the closure cap extending radially outward of an outer diameter of the rotatably supported projection. 8. The compaction device as in claim 5 , further comprising a second rotatably supported suction drum, wherein the first and second suction drums are axially aligned and rotatably supported on a common carrier, the common carrier having a suction channel connected to an interior of each suction drum. 9. The compaction device as in claim 8 , wherein the common carrier comprises a U-shaped end piece, the suction channel opening into the U-shaped end piece. 10. The compaction device as in claim 8 , further comprising two nip rollers rotatably supported on the common carrier, each nip roller spring loaded against an outer periphery of a respective one of the suction drums to form a nip line. 11. The compaction device as in claim 8 , further comprising two suction tubes mounted on the common carrier and connected to the suction channel, each suction tube having a suction opening for a thread suction process. 12. The compaction device as in claim 8 , wherein the common carrier is configured to connect to an opening in a negative pressure channel provided on the spinning machine. 13. A spinning machine for processing a sliver, comprising: a drafting system having a pair of delivery rollers; a device for compacting the sliver delivered by the delivery rollers, the compacting device further comprising: a revolving compaction element actuated by suction air, the compaction element further comprising a drive element in a drive connection with a bottom roller of the delivery rollers; a first gearing stage defined between the drive element and the bottom roller of the delivery rollers; the compaction element driven by a rotatably supported projection; a second gearing stage between the drive element and the rotatably supported projection; and wherein the drive element has a ring-shaped configuration with an inner diameter surface that rests on a partial area of a circular peripheral surface of the rotatably supported projection to define the second gearing stage.