Distributer phase shifter for a hydraulic pump motor

The invention claimed is: 1. A system comprising: a hydraulic pump motor including a pump motor housing, and a pump motor central rotor that houses at least one hydraulic cylinder in which a hydraulic piston is configured to move in translation, the central rotor cooperating with an input-output distributor which presents the central rotor with an input-output angular collector of a first conduit and an input-output angular collector of a second conduit such that when the central rotor rotates relative to the pump motor housing, the hydraulic cylinder is alternately placed in relation, via an input-output internal canal of the central rotor and an input-output orifice of the central rotor, with an input-output first conduit by the input-output angular collector of the first conduit and with an input-output second conduit by the input-output angular collector of the second conduit; and a distributor phase shifter including at least one phase shift acting element which is configured to be directly or indirectly supported on the pump motor housing to rotate the input-output distributor around its longitudinal axis and over a determined angular range while acting directly or indirectly on an entrainment in rotation system having at least one part integral with the input-output distributor. 2. The system according to claim 1 , wherein the phase shift acting element is a double-acting hydraulic jack having a double-acting piston that defines, with a jack cylinder and two jack ends, two jack chambers, a first chamber of the jack chambers being configured to communicate with the input-output first conduit, a second jack chamber of the jack chambers being configured to communicate with the input-output second conduit. 3. The system according to claim 1 , wherein the phase shift acting element is constituted by two single-acting hydraulic jacks each having a single-acting piston that defines, with a jack cylinder and a jack end, a jack chamber, a first jack chamber of a first hydraulic jack of the two hydraulic jacks being configured to communicate with the input-output first conduit, a second jack chamber of a second hydraulic jack of the hydraulic jacks being configured to communicate with the input-output second conduit, the single-acting piston of the first hydraulic jack being configured to, via the entrainment in rotation system, entrain the input-output distributer in a first direction, the single-acting piston of the second hydraulic jack being configured to, via the entrainment in rotation system, entrain the input-output distributor in a second direction. 4. The system according to claim 1 , wherein one or more of the phase shift acting element and the entrainment in rotation system cooperate with at least one return spring of the acting element. 5. The system according to claim 2 , wherein the jack chambers each house at least one return spring of the acting element which is configured to be directly or indirectly supported on the jack end and on the double-acting piston or on a single-acting piston. 6. The system according to claim 1 , wherein the phase shift acting element is an electrical motor configured to entrain in rotation an endless screw, and the entrainment in rotation system is constituted by a worm crown wheel integral with the input-output distributor and on which the endless worm meshes. 7. The system according to claim 1 , wherein the entrainment in rotation system comprises a phase shift lever integral with the input-output distributor, the lever being configured to be linked to the phase shift acting element directly or by the intermediation of a phase shift rocker bar. 8. The system according to claim 1 , wherein the entrainment in rotation system is constituted by a phase shift rack configured to be moved in translation by the phase shift acting element, the rack being configured to cooperate with a toothed phase shift wheel integral with the input-output distributor. 9. The system according to claim 1 , wherein the phase shift acting element is a hydraulic jack driven with single action or double action and having at least one jack chamber configured to be put in relation either with a high-pressure hydraulic source or with a low-pressure hydraulic source by at least one phase shift electrical valve. 10. The system according to claim 3 , wherein the jack chambers each house at least one return spring of the acting element which is configured to be directly or indirectly supported on the jack end and on a double-acting piston or on one of the single-acting pistons.