Suspension for a mower

The invention claimed is: 1. A suspension for a mower positioned in an orientation for mowing, the suspension comprising: a stationary part; a movable part; a hydraulic actuator; at least one cutting unit; wherein the movable part is connected to the stationary part via the hydraulic actuator such that an actuation of the hydraulic actuator displaces the movable part in relation to the stationary part, wherein displacement of the movable part comprises a vertical component of displacement of the movable part, and wherein the at least one cutting unit is mechanically connected to the movable part; wherein the hydraulic actuator comprises: a barrel comprising a closed axial cap end and an open axial head end; a plunger piston comprising a first axial end and a second axial end; a loose piston comprising a first axial surface and a second axial surface; and a hydraulic actuator comprising a hydraulic accumulator, wherein the plunger piston is positioned in an interior of the barrel at the open axial head end thereof such that the first axial end of the plunger piston is positioned within the interior of the barrel such that the second axial end of the plunger piston extends axially out of the open axial head end of the barrel; wherein the plunger piston at the first axial end thereof comprises a piston end element having a first surface positioned towards the closed axial cap end of the barrel and a second surface positioned towards the open head end of the barrel; wherein the piston end element includes a dimension in a direction perpendicular to an axial direction of the plunger piston which corresponds to an internal dimension, in the same direction, of the barrel; wherein the loose piston is positioned within the interior of the barrel between the closed axial cap end of the barrel and the first surface of the piston end element to define a first compartment and a second compartment in the interior of the barrel, wherein the first compartment is positioned between the axial cap end of the barrel and the first axial surface of the loose piston, and wherein the second compartment is positioned between the second axial surface of the loose piston and the first surface of the piston end element; wherein the interior of the barrel comprises a third compartment, and the third compartment is positioned between the second surface of the piston end element and the open axial head end of the barrel; wherein the barrel at the axial cap end thereof comprises a first opening to provide a hydraulic pressure into the first compartment of the interior of the barrel, and wherein the hydraulic actuator comprises a second opening to provide the hydraulic pressure into at least one of the second compartment and the third compartment of the interior of the barrel; wherein the hydraulic actuator is configured such that the second compartment of the interior of the barrel is in a fluid connection with the third compartment of the interior of the barrel, and wherein the hydraulic accumulator is in a fluid connection with at least one of the second compartment and the third compartment of the interior of the barrel of the hydraulic actuator. 2. A suspension according to claim 1 , wherein the hydraulic actuator is connected to the stationary part and the movable part such that an expansion of the hydraulic actuator results in a raising of the movable part relative to the stationary part, and a contraction of the hydraulic actuator results in a lowering of the movable part relative to the stationary part. 3. A suspension according to claim 1 , wherein at least a part of the movable part is pivotally connected to the stationary part, allowing the at least one of the movable part and the part thereof, upon actuation of the hydraulic actuator, to pivot around a pivot axis. 4. A suspension according to claim 3 , wherein the pivot axis is positioned horizontally. 5. A suspension according to claim 1 , wherein the movable part of the suspension further comprises a plurality of parallelogrammic elements forming a parallelogram, wherein the suspension is configured in a predefined direction relative to the at least one cutting unit, and the suspension attains essentially a same angle in relation to the stationary part, regardless of the degree of expansion of the hydraulic actuator. 6. A suspension according to claim 1 , wherein the axial head end of the hydraulic actuator is mechanically connected to the movable part of the suspension, and wherein the axial cap end of the hydraulic actuator is mechanically connected to the stationary part of the suspension. 7. A suspension according to claim 1 , wherein the axial head end of the hydraulic actuator is mechanically connected to the stationary part of the suspension, and wherein the axial cap end of the hydraulic actuator is mechanically connected to the movable part of the suspension. 8. A suspension according to claim 1 , wherein the stationary part of the suspension further comprises a stationary arm; and the movable part of the suspension further comprises: a pivoting element comprising a first arm and a second arm, the first arm of the pivoting element including a first end and a second end, and the second arm of the pivoting element including a first end and a second end, and the first end of the first arm is connected to the first end of the second arm; an auxiliary arm having a first end and a second end; a carrying arm having a first end and a second end; a carrying bracket for carrying the at least one cutting unit; wherein the pivoting element connected to the first end of the first arm and the first end of the second arm is pivotally connected to a pivoting point of the stationary arm; wherein the auxiliary arm at the first end thereof is pivotally connected to the second end of the second arm of the pivoting element; wherein the carrying arm at the first end thereof is pivotally connected to the first arm of the pivoting element at the second end thereof; wherein the carrying arm at the second end thereof is pivotally connected to the auxiliary arm at the second end thereof; wherein the carrying bracket is mechanically connected to the carrying arm, and wherein the carrying bracket is formed to carry the at least one cutting unit; and wherein the hydraulic actuator is configured to exert a force between the stationary part and a force exerting pivoting point of the pivoting element. 9. A suspension according to claim 8 , wherein the force exerting pivoting point of the pivoting element is positioned at a position on the second arm of the pivoting element below the pivoting point at the stationary arm and above the pivoting point of the auxiliary arm. 10. A suspension according to claim 8 , wherein the cap end of the barrel of the hydraulic actuator is pivotally connected to a stationary bracket, wherein the stationary bracket is fixed to the stationary arm, wherein the second end of the plunger piston of the hydraulic actuator is mechanically connected to a push bar at a first end thereof, and wherein a second end of the push bar is pivotally connected to the force exerting pivoting point of the pivoting element. 11. A suspension according to claim 10 , wherein the first end of the push bar comprises an oblong opening therein, and wherein the cap end of the hydraulic actuator is pivotally connected to the stationary bracket with a through-going pin, and wherein the through-going pin is positioned in the oblong opening of the first end of the push bar. 12. A suspension according to claim 1 , wherein the stationary part of the suspension further comprises a stationary arm comprising an end element having a first end an