Installation tool for a blind fastener and installation procedure for a fastener

The invention claimed is: 1. An installation tool for a fastener in a structure via a front face of said structure, said fastener being of the type including a pin comprising a shank with a head and a threaded end, a gripping element that can be fractured with the application of a predetermined fracture torque and a threaded sleeve capable of becoming deformed outwardly to form a bulb against a rear face of said structure: a hollow cylindrical body extending along a longitudinal X axis comprising a first end in front of an axial opening allowing feedthrough of the gripping element and the fastener head, a first sleeve movable axially and rotationally in the body, capable of driving the gripping element of the pin in axial translation and in rotation about the X axis; a second sleeve movable axially in the body and immovable in rotation, said second sleeve being arranged to drive the first sleeve in axial translation; means for rotation about the X axis comprising a turning shaft provided: with a first free wheel that can drive the first sleeve in rotation in a first rotation direction of the shaft, and with a second free wheel that can rotate a driving element positioned coaxially around said second free wheel in a second rotation direction of the shaft, opposite to the first rotation direction, with the driving element cooperating via helical link with the second sleeve so as to move said second sleeve in axial translation. 2. The installation tool for a fastener as claimed in claim 1 , in which the driving element is a threaded pin, a ball screw, a roller screw or a worm screw. 3. The installation tool for a fastener as claimed in claim 1 , in which the first sleeve comprises movable elements capable of cooperating with a blocking portion of the gripping element of the fastener to secure said fastener in the axial direction with said first sleeve. 4. The installation tool for a fastener as claimed in claim 3 , comprising a first ring positioned on the first sleeve capable of sliding between a first position in which the movement of the movable elements is blocked in the radial direction and a second position in which the movement of movable elements is free in the radial direction. 5. The installation tool for a fastener as claimed in claim 4 , comprising a second ring capable of sliding according to the axial direction on the body and interfaced with the first ring to bring the first ring only to the second position. 6. The installation tool for a fastener as claimed in claim 1 , in which the first free wheel is assembled slidingly along the axial direction on the shaft. 7. The installation tool for a fastener as claimed in claim 6 , in which the first free wheel is assembled on a third ring assembled slidingly along the axial direction on the shaft. 8. The installation tool for a fastener as claimed in claim 7 , in which a compression spring is positioned between the third ring and the driving element. 9. The installation tool for a fastener as claimed in claim 1 , including a spring device attached to an end of the driving element and another end to the body, this spring device is tensioned during rotation of the shaft in the second direction and slackens to push the driving element when the rotation of the turning shaft is stopped and/or reversed. 10. The installation tool for a fastener as claimed in claim 9 , in which the spring device is a torsion spring or a spiral spring. 11. Installation procedure for a fastener using the installation tool in accordance with claim 1 , such procedure comprising the following steps: engaging a gripping element of a fastener to be installed in the opening of the body of the installation tool to secure said fastener in translation and rotation with the first sleeve and engaging the fastener in a perforation in the structure, then; rotating the shaft in the second direction to move the second sleeve in axial translation which brings the first sleeve in axial translation in the pulling direction of the fastener pin for a distance ensuring the formation of a bulb in a threaded sleeve of the fastener via deformation of the threaded sleeve, then; rotating the shaft in the first rotation direction to bring the pin in rotation up to the fracture torque of the pin for which the gripping element separates from the rest of the pin via a fracture in a shear groove on the pin.