Percussion piston

What is claimed is: 1. A percussion piston for a rock drill machine, the machine including a pilot cylinder, a sleeve-type distributor and pressure medium, the percussion piston comprising a control edge configured to change in a position of the distributor in a direction parallel to an axial direction of the percussion piston as the percussion piston moves in an impact direction in relation to the pilot cylinder, wherein the control edge of the percussion piston includes at least one notch provided on an outer periphery of the control edge and arranged to start a state change for the distributor before the control edge of the percussion piston passes by a corresponding control edge provided on the distributor or pilot cylinder. 2. The percussion piston according to claim 1 , wherein said control edge of the percussion piston includes a back edge of a front flange of the percussion piston. 3. The percussion piston according to claim 1 , wherein said at least one notch includes a groove, a rounding or a bevel extending along at least a part of the outer peripheral of the control edge of the percussion piston. 4. The percussion piston according to claim 1 , wherein the at least one notch is arranged to open into a cross-sectional area projected in the axial direction of the percussion piston corresponding to at least 1/50 of the cross-sectional distributor work area causing the start of a state change for the distributor before the control edge of the percussion piston passes by the corresponding control edge provided on the distributor or the pilot cylinder. 5. The percussion piston according to claim 4 , where the projected cross-sectional area is opened by the notch before the control edge of the percussion piston passes by the corresponding control edge of the distributor or pilot cylinder. 6. The percussion piston according to claim 5 , where the projected cross-sectional area is opened by the notch at the latest 0.5 mm before the control edge of the percussion piston passes by the corresponding control edge provided on the distributor or the pilot cylinder. 7. The percussion piston according to claim 1 , wherein the control edge of the percussion piston includes at least two notches provided on the outer peripheral of the control edge. 8. The percussion piston according to claim 1 , wherein the control edge of the percussion piston has a zero advance in relation to the corresponding control edge provided on the distributor or pilot cylinder at an impact point. 9. A rock drilling machine comprising a pilot cylinder, a sleeve-type distributor and a percussion piston, the percussion piston including a control edge configured to change in a position of the distributor in a direction parallel to an axial direction of the percussion piston as the percussion piston moves in an impact direction in relation to the pilot cylinder, wherein the control edge of the percussion piston includes at least one notch provided on an outer periphery arranged to start a state change for the distributor before the control edge of the percussion piston passes by a corresponding control edge provided on the distributor or pilot cylinder. 10. A method for changing a state for a distributor of a rock drilling machine, the rock drilling machine including a pilot cylinder, a sleeve-type distributor, a percussion piston and a pressure medium, the method comprising the steps of: causing, during a movement of the percussion piston in relation to the pilot cylinder in an impact direction, a start of a distributor state change by a control edge provided on the percussion piston; and opening, by at least one notch provided on an outer peripheral of the control edge, a connection between a space between the piston flanges and a high-pressure space before the control edge of the percussion piston has passed by a corresponding control edge provided on the distributor or the pilot cylinder. 11. The method according to claim 10 , wherein the control edge includes a back edge on a front flange of the percussion piston. 12. The method according to claim 10 , wherein the at least one notch opens a cross-sectional area projecting in the axial direction of the percussion piston corresponding to at least 1/50 of the cross-sectional distributor work area causing the start of the state change for the distributor before the control edge of the percussion piston passes by the corresponding control edge provided on the distributor or pilot cylinder. 13. The method according to claim 10 , further comprising directing pressure medium at impact point of the percussion piston through at least one notch provided on the control edge of the percussion piston to change the state of the distributor in a direction parallel to the axial direction of the percussion piston. 14. The method according to claim 10 , further comprising directing pressure medium in a first phase of an impact phase of the work cycle of the rock drilling machine through at least one notch provided on the control edge of the percussion piston to change the state of the distributor in a direction parallel to the axial direction of the percussion piston, and directing pressure medium in a second phase of the impact phase of the work cycle of the rock drilling machine, said second phase following said first phase, past the entire control edge in such way that the position of the distributor is changed in a direction parallel to the axial direction of the percussion piston.