Hydraulic machine of axial-piston design

What is claimed is: 1. A hydraulic axial piston machine, comprising: a cylindrical drum defining a plurality of cylinder bores; a plurality of pistons, each of which is guided in a respective cylinder bore of the plurality of cylinder bores, the plurality of pistons each defining a working chamber and being supported on a swash plate having an adjustable swivel angle; an actuating device including (i) an actuating cylinder configured to adjust the swivel angle of the swash plate so as to adjust a displacement of the hydraulic axial piston machine and (ii) an actuating valve having a proportionally adjustable control piston, the actuating cylinder defining an actuation chamber configured to be connected to high or low pressure via the control piston, the control piston having a first control edge, a second control edge, a third control edge, and an fourth control edge; and a measuring spring configured for forcibly feeding back the swivel angle to the control piston, wherein, in a control cut-off position of the control piston: a first pilot oil connection between the actuation chamber and the low pressure is opened by the first control edge; a second pilot oil connection between the actuation chamber and the high pressure is closed by the second control edge; and a third pilot oil connection between the actuation chamber and the low pressure is closed by the third control edge, the third pilot oil connection being different from the first pilot oil connection. 2. The hydraulic axial piston machine according to claim 1 , wherein: the actuating valve is configured to be adjusted by a proportional solenoid; a tappet submerges into a solenoid chamber into which a tappet-side end portion of the control piston also projects, the tappet-side end portion of the control piston being biased by the measuring spring into a position in which the tappet-side end portion bears against the tappet; and the solenoid chamber is permanently fluidly connected to the actuation chamber through a first portion of the first pilot oil connection, and the first control edge controls a second portion of the first pilot oil connection that connects the low pressure to the solenoid chamber so as to open and close the first pilot oil connection. 3. The hydraulic axial piston machine according to claim 2 , wherein the actuating valve further comprises a control valve housing in which the control piston is arranged, and the control valve housing defines a connecting duct via which the solenoid chamber is permanently connected to the actuation chamber. 4. The hydraulic axial piston machine according to claim 1 , further comprising a non-return valve configured to connect the actuating chamber to the high pressure, bypassing the second pilot oil connection, in order to prioritize inward swivel of the swash plate. 5. The hydraulic axial piston machine according to claim 4 , wherein the non-return valve is arranged coaxially with the actuating valve. 6. The hydraulic axial piston machine according to claim 4 , wherein: the measuring spring has a first side supported on the actuating cylinder and a second side supported on a valve body of the non-return valve, which is pre-tensioned against the control piston and together with the control piston forms the non-return valve, and an internal bore, in which the high pressure acts when the non-return valve is open, is defined in the control piston. 7. The hydraulic axial piston machine according to claim 1 , wherein the actuating cylinder has a cupped configuration, the measuring spring is accommodated in the actuating cylinder, and a valve body is guided in the actuating cylinder. 8. The hydraulic axial piston machine according to claim 7 , wherein an axial length of the valve body and guidance of the valve body in the actuating cylinder are optimized for tilting stability. 9. The hydraulic axial piston machine according to claim 1 , wherein: the actuating valve further comprises a control valve housing in which the control piston is arranged; the actuating valve has a low-pressure connection connected to the low pressure, a working connection, and a pressure connection connected to the high pressure; and the control valve housing defines two intersecting radial ducts assigned to the working connection, and the control valve housing defines at least one further duct, which forms a fourth pilot oil connection that connects the actuation chamber and the working connection. 10. The hydraulic axial piston machine according to claim 1 , further comprising: a proportional solenoid configured to adjust a position of the control piston, wherein, when the proportional solenoid is not energized, the control piston is moved into a control cut-off position. 11. The hydraulic axial piston machine according to claim 10 , wherein, in a first energized state of the proportional solenoid, the first pilot oil connection is closed, the second pilot oil connection is open, and the third pilot oil connection is closed. 12. The hydraulic axial piston machine according to claim 11 , wherein, in a second energized state of the proportional solenoid, the first pilot oil connection is closed, the second pilot oil connection is closed, and the third pilot oil connection is open.