Hydraulic system for driving a vibratory mechanism

The invention claimed is: 1. Hydraulic system for driving a vibratory mechanism of a compaction roller, the hydraulic system comprising: at least one hydraulic motor connectable to the vibratory mechanism, a first hydraulic pump fluidly connected to the at least one hydraulic motor and arranged for supplying pressurised hydraulic fluid to the at least one hydraulic motor, a second hydraulic pump fluidly connected to the at least one hydraulic motor and arranged for supplying pressurised hydraulic fluid to the at least one hydraulic motor, and a hydraulic accumulator fluidly connected to the at least one hydraulic motor, wherein the hydraulic system is configured to first supply pressurised hydraulic fluid from one of the first and second hydraulic pumps to the hydraulic accumulator, and to subsequently accelerate the hydraulic motor to a nominal speed during a hydraulic motor acceleration phase by supplying pressurised hydraulic fluid from the hydraulic accumulator only and, when the hydraulic motor has reached the nominal speed, operate the hydraulic motor in a steady-state mode by supplying pressurised hydraulic fluid from at least the other of the first and second hydraulic pumps to the hydraulic motor. 2. Hydraulic system according to claim 1 , wherein the first and second hydraulic pumps has the same displacement volume, or one of the first and second hydraulic pumps has a larger maximal displacement volume than the other of the first and second hydraulic pumps. 3. Hydraulic system according to claim 2 , wherein the smaller displacement pump of the first and second hydraulic pumps has a displacement volume in the range of 10% - 90% of the larger displacement pump. 4. Hydraulic system according to claim 1 , wherein one of the first and second hydraulic pumps is designed to withstand a higher operating pressure than the other of the first and second hydraulic pumps. 5. Hydraulic system according to claim 1 , wherein one of the first and second hydraulic pumps is a variable displacement pump and the other of the first and second hydraulic pumps is a fixed displacement pump. 6. Hydraulic system according to claim 1 , wherein the hydraulic system is configured to feed pressurised hydraulic fluid from the at least one hydraulic motor to the hydraulic accumulator during a hydraulic motor deceleration phase. 7. Hydraulic system according to claim 1 , wherein the first hydraulic pump is fluidly connected to the at least one hydraulic motor via a first feed path, the second hydraulic pump is fluidly connected to the at least one hydraulic motor via a second feed path, and both the first and second feed paths are free from any additional hydraulic motor. 8. Hydraulic system according to claim 1 , wherein the first and second hydraulic pumps are fluidly connected to the at least one hydraulic motor partly via a common feed path and partly via individual feed paths, the individual feed paths meet and merge to the common feed path at a coupling point, and at least one hydraulic flow control component is provided in the common feed path. 9. Hydraulic system according to claim 1 , wherein at least one valve is arranged to control the flow from the first hydraulic pump to the at least one hydraulic motor and/or from the second hydraulic pump to the at least one hydraulic motor. 10. Compaction machine comprising a hydraulic system, the hydraulic system comprising at least one hydraulic motor connectable to vibratory mechanism, a first hydraulic pump fluidly connected to the at least one hydraulic motor and arranged for supplying pressurised hydraulic fluid to the at least one hydraulic motor, a second hydraulic pump fluidly connected to the at least one hydraulic motor and arranged for supplying pressurised hydraulic fluid to the at least one hydraulic motor, and a hydraulic accumulator fluidly connected to the at least one hydraulic motor, wherein the hydraulic system is configured to first supply pressurised hydraulic fluid from one of the first and second hydraulic pumps to the hydraulic accumulator, and to subsequently accelerate the hydraulic motor to a nominal speed by supplying pressurised hydraulic fluid from the hydraulic accumulator only, and when the hydraulic motor has reached the nominal speed, operate the hydraulic motor in a steady-state mode by supplying pressurised hydraulic fluid from at least the other of the first and second hydraulic pumps to the hydraulic motor. 11. Method for controlling a vibratory mechanism of a compaction roller, wherein the vibratory mechanism is mechanically connected to at least one hydraulic motor arranged to be supplied with pressurised hydraulic fluid from a first and a second hydraulic pump, the method comprising: supplying pressurised hydraulic fluid from one of the first and second hydraulic pumps to the hydraulic accumulator, subsequently accelerating the hydraulic motor to a nominal speed during a hydraulic motor acceleration phase by supplying pressurised hydraulic fluid from the hydraulic accumulator only, and when the hydraulic motor has reached the nominal speed, operating the hydraulic motor in a steady-state mode by supplying pressurised hydraulic fluid from at least the other of the first and second hydraulic pumps to the hydraulic motor. 12. Method according to claim 11 , comprising: supplying pressurised hydraulic fluid from the at least one hydraulic motor to a hydraulic accumulator during a hydraulic motor deceleration phase. 13. Method according to claim 11 , comprising adjusting the vibration frequency of the vibratory mechanism by selectively supplying pressurised hydraulic fluid to the hydraulic motor from one or both of the first and second hydraulic pumps. 14. A computer comprising a program for performing the steps of the method according to claim 11 by controlling the hydraulic motor, the first and second hydraulic pumps, and the accumulator when program is run on the computer. 15. A non-transitory computer readable medium carrying a computer program for performing the steps of the method according to claim 11 by controlling the hydraulic motor, the first and second hydraulic pumps, and the accumulator when program product is run on a computer. 16. A control unit for controlling a hydraulic system, the control unit being configured to perform the steps of the method according to claim 11 by controlling the hydraulic motor, the first and second hydraulic pumps, and the accumulator.