Servoless motor

The invention claimed is: 1. A Hydraulic piston unit comprising: a rotational group for driving or being driven by a driving shaft, the rotational group comprising a cylinder block with cylinder bores and pistons mounted to be reciprocally moveable in the cylinder bores for conveying hydraulic fluid from a kidney-shaped inlet port to a kidney-shaped outlet port of a valve segment, a displacement element being tiltable with respect to a rotational axis of the driving shaft between a first end position and a second end position for adjusting a displacement volume of the rotational group between a minimum or a maximum displacement, wherein, on the valve segment between the inlet port and the outlet port at respective dead end positions of the reciprocally moveable working pistons, a first control port and a second control port are located in fluid connection with the cylinder bores for controlling the position of the displacement element, wherein the hydraulic piston unit further comprises a control valve with a shiftable control valve spool, the shiftable control valve spool being a two-position valve being shiftable by means of an actuator between only an initial position and a shifted position, the control valve being fluidly connected via a high pressure port to the high pressure side of the hydraulic piston unit being capable to conduct hydraulic fluid from the high pressure side to one of the first and the second control port, wherein, in the initial position, the control valve is configured to conduct the hydraulic fluid under high pressure to the first control port in order to adjust the displacement element to be maintained at the first end position for maintaining the displacement volume at one of the minimum or the maximum displacement and, in the shifted position, the control valve is configured to conduct the hydraulic fluid from the high pressure port to the second control port in order to adjust the position of the displacement element to be maintained at the second end position for maintaining the displacement volume at the other of the minimum or the maximum displacement, wherein the actuator is an electro-mechanical actuator that is controllable by a control unit; and wherein the actuator is configured to shift the control valve spool when a predetermined system parameter is exceeded or underrun. 2. The hydraulic piston unit according to claim 1 , wherein the control valve spool is held by a control valve spring in the initial position, in which hydraulic fluid under high pressure can be conducted to the first control port in order to adjust the displacement element into the first end position. 3. The hydraulic piston unit according to claim 2 , wherein the hydraulic piston unit is a hydraulic piston unit of the two position construction type. 4. The hydraulic piston unit according to claim 1 , wherein the displacement element is held in an initial position by an elastic force generated by a spring. 5. The hydraulic piston unit according to claim 2 , further comprising a high pressure selecting valve fluidly connected to both pressure sides of the hydraulic piston unit for supplying hydraulic fluid from the high pressure side to the high-pressure port of the control valve. 6. The hydraulic piston unit according to claim 5 , further comprising a low pressure selecting valve fluidly connected to both pressure sides of the hydraulic piston unit for supplying hydraulic fluid from the low pressure side to a low-pressure port of the control valve, wherein the control valve spool is configured to conduct hydraulic fluid under low pressure to the respective other control port of the first and second control port that is not charged by high pressure. 7. Hydraulic piston unit according to claim 1 , wherein the control valve further comprises a low pressure port fluidly connected to a charge pressure source of the hydraulic piston unit or to any other system pressure line, wherein the control valve spool is configured to conduct hydraulic fluid under charge pressure or system pressure to the respective other control port of the first and second control port that is not charged by high pressure. 8. The hydraulic piston unit according to claim 1 , wherein the hydraulic piston unit is a hydraulic piston unit of the two position construction type. 9. The hydraulic piston unit according to claim 1 , further comprising a high pressure selecting valve fluidly connected to both pressure sides of the hydraulic piston unit for supplying hydraulic fluid from the high pressure side to the high-pressure port of the control valve. 10. The hydraulic piston unit according to claim 1 , further comprising a low pressure selecting valve fluidly connected to both pressure sides of the hydraulic piston unit for supplying hydraulic fluid from the low pressure side to a low-pressure port of the control valve, wherein the control valve spool is configured to conduct hydraulic fluid under low pressure to the respective other control port of the first and second control port that is not charged by high-pressure. 11. A method for controlling the displacement volume of a rotational group of a hydraulic piston unit comprising a control valve with a two-position shiftable control valve spool shiftable between only an initial position and a shifted position, the control valve being fluidly connected via a high pressure port to the high pressure side of the hydraulic piston unit, and a valve segment with a first control port and a second control port located on the valve segment at respective dead end positions of working pistons reciprocally moveable in cylinder bores of a cylinder block of the rotational group, the method comprising: holding the control valve spool in its initial position to conduct hydraulic fluid from the high pressure side via the control valve to one of the first or second control port, when an initial displacement volume of the rotational group is being maintained, and shifting the control valve spool to the shifted position and holding the control valve spool in the shifted position by means of an actuator for conducting hydraulic fluid under high pressure via the high-pressure port to the respective other control port of the first or second control port, when the displacement volume of the rotational group is to be changed and maintained at a maximum displacement volume, the actuator being an electro-mechanical actuator, wherein shifting the control valve spool includes commanding the actuator via a control unit; and wherein controlling system parameters by means of the control unit and shifting the control valve spool by commanding the actuator via the control unit in case one system parameter is exceeded or underrun. 12. The method according to claim 11 , wherein the control valve further comprises a low pressure port and the control valve spool conducts hydraulic fluid from the low pressure side to the respective other one of the first or second control port that is not charged with high pressure. 13. The method according to claim 11 , wherein the control valve further comprises a low pressure port and the control valve spool conducts hydraulic fluid from the low pressure side to the respective other one of the first or second control port that is not charged with high pressure.