Hydraulic flushing valve arrangement

What is claimed is: 1. A hydraulic flushing valve arrangement, comprising: a flushing valve configured to flush out a flushing quantity, and including: a housing, having: a valve bore; two circular housing control edges; two inlet channels flowing into the valve bore; and an outlet channel opening into the valve bore between the two inlet channels; a piston, having a piston neck; two piston control edges, each piston control edge having a circular shape; a respective recess in each of the two piston control edges, each of the respective recesses having a second portion with a first plurality of cross-sections, in a first plurality of planes perpendicular to an axis of the piston, that are constant; and two control collars spaced apart from each other by the piston neck and delimited from the neck by the two piston control edges, respectively; wherein the control collars are configured to guide the piston so as to be longitudinally displaceable in the valve bore of the housing such that the piston, together with the two housing control edges, is configured to control fluidic connections between the two inlet channels and the outlet channel; a spring preloads the piston in a middle position whereat the fluidic connections between the outlet channel and the inlet channels is blocked, the piston configured to move out from the middle position in response to a specific difference between a first pressure prevailing in a first of the two inlet channels and a second pressure prevailing in a second of the two inlet channels and, via the respective recess in a corresponding one of the two control collars, open a fluidic connection between the outlet channel and a corresponding one of the two inlet channels having a lower prevailing pressure; and the first plurality of cross-sections are sized such that the flushing quantity is reduced when the first plurality of cross-sections are positioned in a region of one of the housing control edges relative to the flushing quantity when the flushing piston is in an end position. 2. The hydraulic flushing valve arrangement of claim 1 , wherein: each respective recess further has a first portion with a second plurality of cross-sections, in a second plurality of planes perpendicular to the axis of the piston, that steadily increase with decreasing distance from a corresponding one of the two piston control edges; and the first portion starts from a closed end of the respective recess, extends over at least a part of an axial extent of the respective recess, and steadily transforms into the second portion. 3. The hydraulic flushing valve arrangement of claim 2 , wherein a change in cross-section at a transition between the first portion and the second portion of each recess is equal to zero. 4. The hydraulic flushing valve arrangement of claim 2 , wherein each respective recess further has a third portion adjoining the second portion, the third portion having a third plurality of cross-sections, in a third plurality of planes perpendicular to the axis of the piston, that steadily increase from the second portion to the corresponding one of the piston control edges. 5. The hydraulic flushing valve arrangement of claim 2 , wherein each of the first plurality of cross-sections define a minimal throughflow cross section between a corresponding one of the inlet channels and the outlet channel when the piston is positioned such that the second portion is located in a region of the corresponding one of the housing control edges. 6. The hydraulic flushing valve arrangement of claim 1 , wherein a depth of each respective recess at the corresponding one of the piston control edges, measured perpendicularly to the axis of the piston, is smaller than a difference between a diameter of a corresponding one of the control collars and a diameter of the piston neck. 7. The hydraulic flushing valve arrangement of claim 1 , wherein: each respective recess is formed by at least one flattening of the corresponding one of the piston control edges; and a cross section of each respective recess is defined by a depth of the flattening. 8. The hydraulic flushing valve arrangement of claim 7 , wherein: each respective recess further has a first portion in which a depth of the respective recess, measured perpendicularly to the axis of the piston, steadily increases with decreasing distance from a corresponding one of the two piston control edges; and the first portion starts from a diameter of a corresponding one of the control collars, extends over at least a part of an axial extent of the respective recess as far as the second portion, and steadily transforms into the second portion. 9. The hydraulic flushing valve arrangement of claim 8 , wherein the second portion and first portion transform into each other without an edge. 10. The hydraulic flushing valve arrangement of claim 8 , wherein the first portion transforms into the diameter of the piston without an edge. 11. The hydraulic flushing valve arrangement of claim 8 , wherein each respective recess further has a third portion ending at the corresponding one of the piston control edges, and in which the depth of the flattening, measuring perpendicularly to the axis of the piston, steadily increases with decreasing distance from the corresponding one of the piston control edges. 12. The hydraulic flushing valve arrangement of claim 11 , wherein a depth of flattening at the third portion initially increases following a curved convex line, and then follows a straight line up to the corresponding one of the piston control edges. 13. The hydraulic flushing valve arrangement of claim 11 , wherein the third portion transforms, following a curved convex line and without an edge into a ring face of the piston delimiting the corresponding one of the piston control collars from the piston neck. 14. The hydraulic flushing valve arrangement of claim 11 , wherein one or more of the first portion and the third portion is progressive in the axial direction and is without edges. 15. The hydraulic flushing valve arrangement of claim 1 , further comprising: a pressure-holding valve positioned in the outlet channel, and configured to move into an open position in response to a specific minimal pressure prevailing in the outlet channel between the pressure-holding valve and the flushing valve. 16. The hydraulic flushing valve arrangement of claim 15 , further comprising: a flushing diaphragm positioned in the outlet channel between the flushing valve and the pressure-holding valve, the pressure-holding valve configured such that the specific minimal pressure for opening the pressure-holding valve prevails upstream of the flushing diaphragm. 17. A hydraulic flushing valve arrangement, comprising: a flushing valve configured to flush out a flushing quantity, and including: a housing, having: a valve bore; two circular housing control edges; two inlet channels flowing into the valve bore; and an outlet channel opening into the valve bore between the two inlet channels; a piston, having a piston neck; two piston control edges, each piston control edge having a circular shape; a respective recess in each of the two piston control edges; and two control collars spaced apart from each other by the piston neck and delimited from the neck by the two piston control edges, respectively; wherein the control collars are configured to guide the piston so as to be longitudinally displaceable in the valve bore of the housing such that the piston, together with the two housing control edges,