Method for controlling a lifting jack for an aircraft engine nacelle, a jack-type lifting system implementing the method and the thus equipped nacelle

What is claimed is: 1. A maintenance access method for controlling at least a lifting jack of a jack-type lifting system for a cowl of a turbojet engine nacelle, the cowl being constituted by half-cylindrical shaped panels hinged, at their upper edge, on hinges and blocked, at their opposite edge, in a closed position by a lock, the jack-type lifting system comprising the lifting jack, the lifting jack including an internal rod which slides inside an external rod, each rod being fitted with a piston at one end, the internal rod being secured to one of the half-cylindrical shaped panels and the external rod being secured to a turbojet engine, said method comprising: a first step of reducing a maximum force value of the lifting jack to a reduced maximum force value at a beginning of an extension stroke of at least one of the internal or external rods, wherein the extension stroke extends beyond a determined portion; and a second step of switching from the reduced maximum force value resulting from said first step to a nominal maximum force value of the lifting jack when the extension stroke extends beyond the determined portion, the extension stroke extended beyond the determined portion corresponding to a start-up threshold stroke beyond which the cowl escapes from the lock when the lock is properly unlocked. 2. The method according to claim 1 , wherein the jack-type lifting system comprises an air vent valve configured to reduce the maximum force value of the lifting jack to the reduced maximum force value, and further comprising detecting the determined portion of the extension stroke before switching from the first step to the second step, wherein switching from the first step to the second step is activated by the detecting the determined portion of the extension stroke. 3. The method according to claim 2 , wherein the lifting jack is a fluid jack and the jack-type lifting system includes a controlling system for controlling a pressure supplied to the fluid jack, wherein the air vent valve is connected to at least one pressure source applied to a compression chamber of the fluid jack, further comprising said air vent valve presenting at least two calibrations, so that, through a first portion at the beginning of the extension stroke of the at least one of the internal or external rods located before the determined portion of the extension stroke, a first calibration is applied to a pressure of a fluid of the fluid jack and through a second portion of the extension stroke located after the determined portion of the extension stroke, a second calibration is applied to the pressure of the fluid of the fluid jack. 4. The method according to claim 3 , wherein a needle that is movable under an action of the piston at the one end of the internal rod detects the extension stroke extended beyond the determined portion, further comprising an end of the needle presenting a profile such that, through a stroke of the piston at the one end of the internal rod, the profile progressively repels a calibration adjusting ball in contact with a calibration spring of said air vent valve between at least two adjustment positions of said at least two calibrations. 5. The method according to claim 2 , wherein the lifting jack is a fluid jack, and wherein modifying the maximum force value of the fluid jack includes a distributor including a pressure chamber applied on a body of the fluid jack in connection with a pressure chamber of the fluid jack, and the air vent valve is at least two air vent valves comprising a first valve and a second valve presenting different calibrations, the first and second valves being connected at determined points of the pressure chamber of the distributor and of the pressure chamber of the fluid jack, a fluid pressure access being connected to the pressure chamber of the distributor and the pressure chamber of the fluid lack and, further comprising the first valve applying the reduced maximum force value through a first portion at the beginning of the extension stroke of the at least one of the internal or external rods and jack the second valve applying the nominal maximum force value of the fluid jack. 6. The method according to claim 5 , wherein another rod is connected to a piston and passes through the body of the fluid jack. 7. The method according to claim 2 , wherein the detecting the determined portion of the extension stroke includes a protrusion disposed on at least one of the internal or external rods of the lifting jack, further comprising the protrusion presenting a profile such that, through at least one portion of the extension stroke, the profile activates modifying the maximum force value of the lifting jack. 8. The method according to claim 2 , wherein the lifting jack progressively changes in an angle during extension, wherein detecting the determined portion of the extension stroke includes a fixed portion in relation to a body of the lifting jack, and wherein modifying the maximum force value of the lifting jack includes a valve for venting a pressurized fluid supply of the lifting jack and a calibration spring configured to remain in contact with a fixed portion in relation to the body of the lifting jack through a determined portion of an angular stroke of the lifting jack. 9. The method according to claim 4 , wherein the calibration spring has a determined stiffness and is connected through the first portion of the extension stroke with another calibration spring having another determined stiffness, further comprising applying the second calibration to said air vent valve through the second portion of the extension stroke with the another calibration spring having the another determined stiffness. 10. The method according to claim 2 , wherein a movable needle detects the extension stroke extended beyond the determined portion.