Device for manipulating a hollow shaft intended to create a pivot link between a first element and a second element

The invention claimed is: 1. A method for disengaging a hollow shaft from at least one orifice of a first element and from at least one orifice of a second element using a manipulation device, the hollow shaft having a first longitudinal axis, an interior surface of the hollow shaft being smooth, the manipulation device for manipulating the hollow shaft comprising: a cylindrical body having a second longitudinal axis, an exterior surface of the cylindrical body being smooth, the cylindrical body being configured to be introduced into the hollow shaft so that the second longitudinal axis is parallel to the first longitudinal axis, the cylindrical body having a diameter that is variable through radial contraction or radial expansion of the cylindrical body, a control module to control the diameter of the cylindrical body, the control module being configured so that the diameter of the cylindrical body has alternatively at least one first diameter suitable for the cylindrical body to be able to be displaced in the hollow shaft and a second diameter suitable for the cylindrical body to be blocked in the hollow shaft, the cylindrical body comprising a first end configured to protrude from the hollow shaft when the cylindrical body is blocked in the hollow shaft, the first end having a conical form, a base of the conical form of the first end having a diameter greater than or equal to a diameter of the hollow shaft, the cylindrical body having a shoulder at the base of the conical form of the first end, said shoulder forms an abutment against the hollow shaft when the cylindrical body is blocked in the hollow shaft, an extraction module to extract the hollow shaft engaged in the at least one orifice of the first element and in the at least one orifice of the second element, the extraction module comprising a detection system configured to detect a resistance likely to be exerted on the hollow shaft and tending to prevent a disengagement of the hollow shaft, the extraction module being configured to disengage the hollow shaft from the at least one orifice of the first element and from the at least one orifice of the second element if the resistance detected by the detection system is below a predetermined threshold, the hollow shaft being configured to create the pivot link between the first element and the second element through the engagement of the hollow shaft in the orifices, the method comprising: radially contracting the cylindrical body using the control module so that the diameter of the cylindrical body is equal to the first diameter, introducing the cylindrical body into the hollow shaft, radially expanding the cylindrical body using the control module so that the diameter of the cylindrical body is equal to the second diameter, preparing the extraction module, disengaging the hollow shaft when the resistance detected by the detection system and that is exerted on the hollow shaft, tending to prevent the disengagement of the hollow shaft, is below a predetermined threshold. 2. The method as claimed in claim 1 , wherein the detection system corresponds to a mechanical system comprising at least one elastic member, the at least one elastic member configured to allow the disengagement of the hollow shaft if the resistance is below the predetermined threshold, the mechanical system further comprising a bearing surface configured to be arranged at a fixed distance relative to the first and second elements and a compression surface configured to compress the at least one elastic member against the bearing surface when the compression surface is brought closer to the bearing surface, the at least one elastic member exerting a force tending to separate the compression surface from the bearing surface, and wherein the step of preparing the extraction module comprises compressing the at least one elastic member by bringing the compression surface closer to the bearing surface. 3. The method as claimed in claim 2 , wherein the disengagement step comprises moving the compression surface away from the bearing surface using the elastic member, the compression surface being configured to drive the cylindrical body and the hollow shaft via a threaded rod, if the resistance detected by the detection system and that is exerted on the hollow shaft, tending to prevent the disengagement of the hollow shaft, is below a predetermined threshold.