Valve drive device with switchover device

The invention claimed is: 1. A valve drive device for actuating valves of an internal combustion engine, comprising: at least one rocker arm device that interacts with a camshaft, and during operation actuates at least one valve, a switchover device for switching over the at least one rocker arm device between a first position and a second position, the switchover device including at least two actuators for the at least one rocker arm device, wherein the at least two actuators each include: a switching element for switching over the at least one rocker arm device between the first position and the second position, the switching element being adjustable between a first position and a second position, a resetting device for resetting the switching element with a resetting force into the second position, a holding coil for offsetting the resetting force of the resetting device, a switching coil that counteracts the resetting force during operation, wherein the switching coil and the holding coil during operation adjust the switching element into the first position, wherein the switchover device further includes a control unit for controlling the at least two actuators, the control unit for the respective switching coil of the at least two actuators comprises an associated switching coil output for individually activating the respective switching coils, and wherein the control unit comprises a common main coil output for at least two of the respective holding coils for the joint activation of the respective holding coils. 2. The valve drive device according to claim 1 , wherein the resetting device of at least one of the at least two actuators is a spring acting on the switching element. 3. The valve drive device according to claim 1 , further comprising: an electrical line provided for at least one of the at least two actuators that electrically connects the switching coil and the holding coil of the at least one actuator, and wherein a diode is arranged in the electrical line such that the holding coil, when the switching coil is energized, is energized via the electrical line and a reverse energization is blocked. 4. The valve drive device according to claim 1 , further comprising: an electrical sub-branch provided for at least one of the at least two actuators that merges via a node into a main branch that is electrically contacted with the main coil output and electrically connects the holding coil with the holding coil output of the control unit, and wherein a diode is arranged in the electrical sub-branch such that the diode upon energization of the holding coil, blocks an energization of the holding coil output via the electrical sub-branch. 5. The valve drive device according to claim 2 , further comprising: an electrical line provided for at least one of the at least two actuators that electrically connects the switching coil and the holding coil of the at least one actuator, and a diode arranged in the electrical line such that the holding coil, when the switching coil is energized, is energized via the electrical line and a reverse energization is blocked. 6. The valve drive device according to claim 2 , further comprising: an electrical sub-branch provided for at least one of the at least two actuators that merges via a node into a main branch that is electrically contacted with the main coil output and electrically connects the holding coil with the holding coil output of the control unit, and a diode arranged in the electrical sub-branch such that the diode upon energization of the holding coil, blocks an energization of the holding coil output via the electrical sub-branch. 7. The valve drive device according to claim 3 , further comprising: an electrical sub-branch provided for at least one of the at least two actuators that merges via a node into a main branch that is electrically contacted with the main coil output and electrically connects the holding coil with the holding coil output of the control unit, and a diode arranged in the electrical sub-branch such that the diode upon energization of the holding coil, blocks an energization of the holding coil output via the electrical sub-branch. 8. A switchover device of a valve drive device, comprising: at least two actuators for at least one rocker arm device that is switchable between a first position and a second position, the at least two actuators respectively including: a switching element for switching over the at least one rocker arm device between the first position and the second position, the switching element being adjustable between a first position and a second position, a resetting device for resetting the switching element with a resetting force into the second position, a holding coil for offsetting the resetting force of the resetting device, a switching coil that counteracts the resetting force during operation, wherein the switching coil and the holding coil during operation adjust the switching element into the first position, a control unit for controlling the at least two actuators, the control unit including a switching coil output for the respective switching coils of the at least two actuators for individually activating the respective switching coils, wherein the control unit comprises a common holding coil output for the respective holding coils of the at least two actuators for the joint activation of the respective holding coils. 9. A method for controlling a switchover device according to claim 8 , comprising jointly energizing the respective holding coils of the at least two actuators via the common holding coil output of the control unit and the respective switching coils separately via the associated switching coil output of the control unit. 10. The method according to claim 9 , further comprising adjusting the respective switching elements sequentially into at least one of the first position and the second position. 11. The method according to claim 10 , wherein for sequentially adjusting the respective switching elements into the respective first position: the respective holding coils are energized via the common holding coil output, and the respective switching coils are energized offset in time according to a desired sequence. 12. The method according to claim 10 , wherein for the sequential adjusting of the respective switching elements into the respective second position: the energization of the respective holding coils via the common holding coil output is discontinued, and the energization of the respective switching coils is discontinued offset in time according to a desired sequence. 13. The method according to claim 10 , wherein for the sequential adjusting of the respective switching elements into the respective second position: the respective holding coils are energized via the holding coil output in time intervals, the energization of the respective switching coils is discontinued offset in time according to a desired sequence, and the energization of the energized switching coils is interrupted in the energization phases of the respective holding coils. 14. The method according to claim 13 , wherein the discontinuing of the energization of the respective switching coil takes place in a phase of the respective holding coils that is energization-free via the main coil output. 15. The method according to claim 13 , wherein the energization of the respective holding coils via the main coil output takes place at time intervals by a periodical energization. 16. The method according to claim 11 , wherein for the sequential adjusting of the respe