Braking system for a hydraulic machine

The invention claimed is: 1. A hydraulic machine comprising a shaft and a casing mounted to rotate relative to each other by means of a bearing, the hydraulic machine comprising: first brake elements constrained to rotate with the casing; second brake elements constrained to rotate with the shaft; the first and second brake elements forming a stack and being configured so as to enable the casing to be constrained to rotate with the shaft when they are put into contact; a spring washer mounted to bear against the casing and tending to urge the first and second brake elements in a braking direction, tending to cause the first and second brake elements to be put into contact; and brake release pistons configured to act on the spring washer in a direction opposing the braking direction; wherein the brake release pistons comprise a primary brake release piston associated with a primary brake release chamber, and a secondary brake release piston associated with a secondary brake release chamber, said primary and secondary chambers being fluidly connected together and adapted through a common pressurized fluid within each chamber to exert thrust forces respectively on the primary piston and on the secondary piston wherein with the chambers pressurized the primary brake release piston applies a releasing force to the secondary brake release piston and additionally the secondary brake release piston applies a releasing force to compress the spring washer such that the combined forces release act against the spring to the brake elements and allow the shaft to rotate; and said primary and secondary chambers being arranged in succession along a longitudinal direction of the shaft and extending radially around the shaft in such a manner that projections of the primary brake release chamber and of the secondary brake release chamber onto a plane perpendicular to a longitudinal axis defined by the axis of rotation of the hydraulic machine are overlapping, at least in part. 2. The hydraulic machine according to claim 1 , further comprising a chamber separator configured to separate the primary and secondary brake release pistons in such a manner that the pressure within each of the primary and secondary chambers act on only one face of a single brake release piston. 3. The hydraulic machine according to claim 2 , wherein the chamber separator includes at least one hole to enable the brake release pressure to be communicated between the primary and secondary brake release chambers. 4. The hydraulic machine according to claim 2 , wherein: the primary brake release chamber is defined by the casing and by the primary brake release piston; and the secondary brake release chamber is defined by the chamber separator and by the secondary brake release piston. 5. The hydraulic machine according to claim 1 , wherein, for a projection of each of the primary brake release chamber and the secondary brake release chamber onto planes perpendicular to a longitudinal axis defined by the axis of rotation of the hydraulic machine, the projections of the primary brake release chamber and of the secondary brake release chamber are superposed, at least in part, in such a manner that the projection of the secondary brake release chamber covers at least 30% of the projection of the primary brake release chamber. 6. The hydraulic machine according to claim 1 , further comprising a braking piston interposed between the stack and the brake release piston, and associated with a braking chamber configured to apply a force on the braking piston tending to urge it in a braking direction tending to cause the first and second brake elements to be put into contact. 7. The hydraulic machine according to claim 1 , wherein each brake release chamber is connected to a pressure feed source configured to deliver a pressure less than or equal to 30 bar. 8. The hydraulic machine according to claim 1 , wherein the primary brake release piston moves in translation in an intermediate chamber in fluid flow connection with an internal volume of the casing. 9. The hydraulic machine according to claim 1 , including a cylinder block defining a plurality of cylinders extending radially around the longitudinal axis of the shaft and having pistons arranged therein facing a multi-lobe cam.