Loop flushing system for hydraulic units

What is claimed is: 1. A hydraulic fluid flushing valve for hydrostatic units usable in closed hydraulic circuit propel applications, having a flushing valve housing with a first inlet port connected to a first working line, a second inlet port connected to a second working line, and a discharge port for draining hydraulic fluid, wherein a two-sided flushing valve flushing valve spool which can be shifted is mounted within the flushing valve housing in a cylindrical valve bore, which, in a shifted position, enables a fluid flow from one of the first or the second inlet port at which the lower hydraulic pressure is present, to the discharge port, wherein the flushing valve spool comprises on each side a pressure surface each of which connected to one of the two inlet ports, wherein at each side of the flushing valve spool a flushing valve spring is located in the flushing valve housing in such a manner that, when the flushing valve spool is in its centre, non-shifted position, at each side of the flushing valve spool a distance between a spring contact surface on the flushing valve spool and a spring support surface in the flushing valve housing is greater than the axial length of the corresponding flushing valve spring, and wherein the flushing valve spool can be shifted out of its centre position free of spring forces until one of the flushing valve springs physically contacts both the corresponding spring contact surface on the flushing valve spool and the spring support surface in the flushing valve housing. 2. The hydraulic fluid flushing valve according to claim 1 , wherein the cylindrical valve bore is closed by end caps, such that spaces between the ends of the flushing valve spool and the end caps form pressure chambers each of which can be supplied by one of the two inlet ports with hydraulic fluid under pressure and wherein each of the end caps provides the spring support surface for one of the flushing valve springs. 3. The hydraulic fluid flushing valve according to claim 2 , wherein the flushing valve springs are attached to the end caps such that in the centre position of flushing valve spool a gap between each end of the flushing valve spool and correspondent flushing valve spring is present. 4. The hydraulic fluid flushing valve according to claim 3 wherein, when the pressure difference at the two inlet ports is greater than zero, the flushing valve spool is in a shifted position and contacts one of the flushing valve springs with its correspondent spring contact surface the flushing valve spring contacts the spring support surface and a fluid discharge from the inlet port at which the lower pressure is present, to the discharge port is enabled, wherein a fluid discharge from the other inlet port is disabled. 5. The hydraulic fluid flushing valve according to claim 2 , wherein the flushing valve springs are housed prestressed in the flushing valve housing, wherein one side of each flushing valve spring abuts against a shoulder in the cylindrical valve bore and the other end abuts against the corresponding support surface of end cap. 6. The hydraulic fluid flushing valve according to claim 5 , wherein the prestressing force of the flushing valve springs can be adjusted via the end caps. 7. The hydraulic fluid flushing valve according to claim 5 wherein, when the pressure difference at the two inlet ports is greater than zero, the flushing valve spool is in a shifted position and contacts one of the flushing valve springs with its correspondent spring contact surface the flushing valve spring contacts the spring support surface and a fluid discharge from the inlet port at which the lower pressure is present, to the discharge port is enabled, wherein a fluid discharge from the other inlet port is disabled. 8. The hydraulic fluid flushing valve according to claim 2 , wherein the distances between the spring contact surfaces on the flushing valve spool and the spring support surfaces in the flushing valve housing or on the end caps can be adjusted. 9. The hydraulic fluid flushing valve according to claim 2 , wherein the end caps are forming stroke limitations for the flushing valve spool. 10. The hydraulic fluid flushing valve according to claim 2 wherein, when the pressure difference at the two inlet ports is greater than zero, the flushing valve spool is in a shifted position and contacts one of the flushing valve springs with its correspondent spring contact surface the flushing valve spring contacts the spring support surface and a fluid discharge from the inlet port at which the lower pressure is present, to the discharge port is enabled, wherein a fluid discharge from the other inlet port is disabled. 11. The hydraulic fluid flushing valve according to claim 1 wherein, when the pressure difference at the two inlet ports is greater than zero, the flushing valve spool is in a shifted position and contacts one of the flushing valve springs with its correspondent spring contact surface, the flushing valve spring contacts the spring support surface and a fluid discharge from the inlet port at which the lower pressure is present, to the discharge port is enabled, wherein a fluid discharge from the other inlet port is disabled. 12. The hydraulic fluid flushing valve according to claim 1 , wherein the flushing valve spool compresses one of the flushing valve springs, when the pressure difference at one of the two inlet ports is greater than a predetermined threshold value, and a fluid flow from the inlet port at which the lower pressure is present to the discharge port is enabled, wherein a fluid discharge from the other inlet port is disabled. 13. The hydraulic fluid flushing valve according to claim 12 , wherein the flushing valve spool enables an amount of fluid discharge proportional to the pressure difference when the pressure difference is greater than the predetermined threshold value. 14. The hydraulic fluid flushing valve according to claim 1 , wherein the flushing valve spool shows a general cylindrical shape, wherein a mid-portion shows a reduced diameter, which is fluidly connected to the discharge port and overlaps in a shifted position of the flushing valve spool with one of the two inlet ports. 15. The hydraulic fluid flushing valve according to claim 1 , wherein the flushing valve spool shows in its centred position a positive or negative overlap with regard to both inlet ports. 16. A hydraulic propel unit with a hydraulic fluid flushing valve according to claim 1 wherein the discharge port leads into a housing or a tank of the hydraulic propel unit. 17. The hydraulic propel unit according to claim 16 , wherein the flushing valve housing is an integral part of the housing of the hydraulic propel unit and wherein the valve bore of the flushing valve is formed in the housing of the hydraulic propel unit. 18. A hydraulic fluid flushing valve for hydrostatic units usable in closed hydraulic circuit propel applications, having a flushing valve housing with a first inlet port connected to a first working line, a second inlet port connected to a second working line, and a discharge port for draining hydraulic fluid, wherein a two-sided flushing valve flushing valve spool which can be shifted is mounted within the flushing valve housing in a cylindrical valve bore, which, in a shifted position, enables a fluid flow from one of the first or the second inlet port at which the lower hydraulic pressure is present, to the discharge port, wherein the flushing valve spool comprises on each side a pressure surface each of which connected to one of the two inlet ports, whe