Vibratory drive

The invention claimed is: 1. A vibratory drive of a vibrating roller, comprising: an unbalance vibrator inserted in at least one drum of the vibrating roller so as to be relatively rotatable in at least one direction in the at least one drum, the at least one drum being rotatably driven by an external drive unit for propulsion of the vibrating roller; a hydraulic motor mechanically coupled to the unbalance vibrator; a hydraulic pump configured to supply a pressure medium to the hydraulic motor in order to rotate the unbalance vibrator; and at least one high pressure accumulator configured to accommodate pressure medium delivered by the hydraulic motor in an overrun mode of the vibratory drive. 2. The vibratory drive as claimed in claim 1 , wherein the high pressure accumulator feeds stored pressure medium to the hydraulic motor in a drive mode of the hydraulic motor. 3. The vibratory drive as claimed in claim 2 , wherein the hydraulic pump and the hydraulic motor are arranged in a closed circuit in which a downstream connection of the hydraulic motor is fluidically connected to the high pressure accumulator in the overrun mode, and an upstream connection of the hydraulic motor is connected to the high pressure accumulator in the drive mode. 4. The vibratory drive as claimed in claim 3 , further comprising a low pressure accumulator which, in the overrun mode of the hydraulic motor, is configured to be connected to the upstream connection of the hydraulic motor between a downstream connection of the hydraulic pump and the upstream connection of the hydraulic motor, and in the drive mode of the hydraulic motor is configured to be connected to the downstream connection of the hydraulic motor. 5. The vibratory drive as claimed in claim 4 , further comprising a recovery valve arrangement connected upstream of the high pressure accumulator and configured to optionally fluidically connect the high pressure accumulator to the upstream or downstream connection of the hydraulic motor. 6. The vibratory drive as claimed in claim 5 , further comprising a pressure medium-equalizing valve arrangement separate from the recovery valve arrangement and which is connected upstream of the low pressure accumulator, the pressure medium-equalizing valve arrangement configured to optionally fluidically connect the low pressure accumulator to the upstream or downstream connection of the hydraulic motor. 7. The vibratory drive as claimed in claim 6 , further comprising a valve controller configured to control the pressure medium-equalizing valve arrangement as a function of the switched position of the recovery valve arrangement. 8. The vibratory drive as claimed in claim 1 , wherein the hydraulic pump and the hydraulic motor are arranged in an open circuit in which a downstream connection of the hydraulic motor is configured to be alternatively fluidically connected to a tank or to the high pressure accumulator. 9. The vibratory drive as claimed in claim 8 , wherein the high pressure accumulator is configured to be fluidically connected to the tank via a pressure-limiting valve. 10. The vibratory drive as claimed in claim 1 , further comprising a valve arrangement via which the high pressure accumulator is configured to be optionally fluidically connected to a downstream connection of the hydraulic motor or to an upstream connection of the hydraulic motor between a downstream connection of the hydraulic pump and the upstream connection of the hydraulic motor.