Drive device for a motor vehicle and method of operating such a drive device

What is claimed is: 1. A drive device for a motor vehicle, comprising: an exhaust pipe; a secondary air device having a first secondary air path which feeds into the exhaust pipe; a secondary air pump disposed in the first secondary air path; a secondary air valve disposed hi the first secondary air path; and at least one Laval nozzle formed in the first secondary air path, wherein the at least one Laval nozzle conducts a flow of air solely through the first secondary air path. 2. The drive device of claim 1 , wherein the first secondary air path has a secondary air line, said Laval nozzle being arranged in a secondary air line upstream of the secondary air pump or downstream of the secondary air pump. 3. The drive device of claim 1 , wherein the Laval nozzle is integrated in the secondary air pump or in the secondary air valve. 4. The drive device of claim 2 , further comprising a fine connection device provided in the secondary air line, said Laval nozzle being arranged in the line connection device. 5. The drive device of claim 4 , wherein the line connection device is a quick-action coupling. 6. The drive device of claim 1 , further comprising an internal combustion engine including a cylinder head, said secondary air path including a secondary air channel which is formed in the cylinder head, said Laval nozzle being disposed in the secondary air channel. 7. The drive device of claim 1 , wherein the secondary air device includes a second secondary air path branching off the first secondary air path downstream of the secondary air pump and provided in the exhaust pipe or a further exhaust pipe, and further comprising a further secondary air valve disposed in the second secondary air path. 8. The drive device of claim 7 , further comprising a further Laval nozzle formed in the second secondary air path. 9. The drive device of claim 7 , further comprising an internal combustion having first and second cylinder banks, one of the exhaust pipes being associated to one of the first and second cylinder banks, and the other of the exhaust pipes being associated to the other one of the first and second cylinder banks. 10. The drive device of claim 8 , wherein a secondary air mass flow flowing through at least one member selected from the group consisting of the Laval nozzle and the further Laval nozzle corresponds to a choked mass flow of the member during normal operation of the drive device. 11. The drive device of claim 8 , wherein a secondary air mass flow flowing through at least one member selected from the group consisting of the Laval nozzle and the further Laval nozzle corresponds to a choked mass flow of the member during normal operation of the secondary air pump. 12. The drive device of claim 10 , wherein the secondary air device is configured such that the secondary air mass flow corresponds to the choked mass flow, even when an actual supply voltage of the secondary air pump deviates from a desired supply voltage. 13. A method of operating a drive device for a motor vehicle, comprising conducting a flow of secondary air through a Laval nozzle in a secondary air path before entering an exhaust pipe to compensate fluctuation in a supply voltage of a secondary air pump in the secondary air path, wherein the Laval nozzle conducts the flow of secondary air solely through the secondary air path. 14. The method of claim 13 , further comprising configuring the Laval nozzle such that its choked mass flow corresponds to a secondary air mass flow introduced at a maximum into exhaust flowing in the exhaust pipe.