Drive arrangement for a hybrid vehicle and drive train comprising such a drive arrangement

The invention claimed is: 1. A drive arrangement for a hybrid vehicle, the hybrid vehicle having a hybrid drive having an internal combustion engine and an electric machine and a transmission having first and second transmission input shafts and an output shaft, the drive arrangement comprising at least: a planetary gear set having a planet carrier, a sun gear and a ring gear, a first element of the planetary gear set is rotationally engagable with the first transmission input shaft, and a second element of the planetary gear set is rotationally engagable to a rotor of the electric machine; a first shift element being engagable either to fixedly join a third element of the planetary gear set to a housing or to rotationally engage the third element of the planetary gear set with the electric machine; a second shift element being engagable to rotationally engage the third element of the planetary gear set with the internal combustion engine; a third shift element being engagable to rotationally engage the first transmission input shaft ( 4 ) with the internal combustion engine; a fourth shift element being engagable to rotationally engage the second transmission input shaft with the internal combustion engine; the third shift element and the fourth shift element being formed as a first double shift element , and the first double shift element having an actuator extending through a cup-shaped section of a drive shaft of the internal combustion engine encompassing the first double shift element on an outside; and the cup-shaped section of the drive shaft of the internal combustion engine extending up to the second shift element. 2. The drive arrangement according to claim 1 , wherein the first element of the planetary gear set is the planet carrier, the second element of the planetary gear set is the sun gear and the third element of the planetary gear set is the ring gear. 3. The drive arrangement according to claim 1 , wherein the actuator of the first double shift element extends, in a radial direction, through a slit in the cup-shaped section of the drive shaft ( 12 ) of the internal combustion engine such that the actuator is displaceable, in the axial direction, relative to the cup-shaped section of the drive shaft of the internal combustion engine and engages rotationally in a circumferential direction with the cup-shaped section of the drive shaft of the internal combustion engine. 4. The drive arrangement according to claim 1 , wherein the first shift element and the second shift element are formed as a second double shift element. 5. The drive arrangement according to claim 1 , wherein the first shift element, the second shift dement, the third shift element and the fourth shift element are each formed as unsynchronized shift elements. 6. The drive arrangement according to claim 1 , wherein the first shift element and the second shift element are each formed as synchronized shift elements, and the third shift element and the fourth shift element are each formed as unsynchronized shift elements. 7. A drive train for a hybrid vehicle, having a hybrid output with an internal combustion engine and an electric machine, having a transmission with first and second transmission input shafts and an output shaft, and having a drive arrangement comprising at least: a first planetary gear set having a planet carrier, a sun gear and a ring gear, a first element of the first planetary gear set is rotationally engagable with the first transmission input shaft, and a second element of the first planetary gear set is rotationally engagable to a rotor of the electric machine; a first shift element being engagable either to fixedly join a third element of the first planetary gear set to a housing or to rotationally engage the third element of the first planetary gear set with the electric machine; a second shift element being engagable to rotationally engage the third element of the first planetary gear set with the internal combustion engine; a third shift element being engagable to rotationally engage the first transmission input shaft with the internal combustion engine; a fourth shift element being engagable to rotationally engage the second transmission input shaft with the internal combustion engine; the third shift element and the fourth shift element being formed as a first double shift dement, and the first double shift element having an actuator extending through a cup-shaped section of a drive shaft of the internal combustion engine encompassing the first double shift element on an outside; and the cup-shaped section of the drive shaft of the internal combustion engine extending to the second shift element. 8. The drive train according to claim 7 , wherein the electric machine is permanently coupled to the second element of the first planetary gear set. 9. The drive train according to claim 7 , wherein the transmission comprises a main transmission having two partial transmissions in parallel with the first and the second transmission input shafts and the output shaft, the main transmission comprises a first gear plane, a second gear plane, a third gear plane, a fourth gear plane and a fifth gear plane (R 5 ), the main transmission comprises a fifth shift element, a sixth shift element, a seventh shift element, an eighth shift element (F), a ninth shift element, a tenth shift element and an eleventh shift element, the transmission comprises a range group having a planetary gear, a twelfth shift element and a thirteenth element, and the planetary gear set of the range group is connected to the main transmission such that, if the tenth shift element is engaged, the fifth gear plane of the main transmission and a first element of the planetary gear set of the range group are rotationally engaged with one another, and if the eleventh shift element is engaged, the fifth gear plane of the main transmission and a second element of the planetary gear set of the range group are rotationally engaged with one another. 10. The drive train according to claim 9 , wherein the first element of the planetary gear set of the range group is rotationally engaged with a main shaft of the transmission, which is decoupled from the second transmission input shaft when the ninth shift element is disengaged, and which is rotationally engaged with the second transmission input shaft when the ninth shift element is engaged, the second element of the planetary gear set of the range group is rotationally engaged with the output shaft, a third element of the planetary gear set of the range group is fixedly joined to the housing when the twelfth shift element is engaged, and is rotationally engaged with the output shaft when the thirteenth shift element is engaged. 11. The drive train according to claim 9 wherein if the first shift element and the second shift element of the drive assembly are each formed as synchronized shift elements, then the seventh shift element, the eighth shift element and the ninth shift element of the main transmission are each designed as unsynchronized shift elements. 12. The drive train according to claim 9 , wherein if the first shift element and the second shift element of the drive assembly are each formed as unsynchronized shift elements, then the seventh shift element, the eighth shift element and the ninth shift element of the main transmission are each designed as synchronized shift elements. 13. A drive arrangement for a hybrid vehicle, the drive arrangement comprising: a hybrid drive having an internal combustion engine and an electric machine; a transmission having first and second transmission input shafts and an output shaft that define