System for erecting a tower and corresponding method

The invention claimed is: 1. A system for assembling a tower for a wind generator comprising a succession of subsections (Si), the system comprising: a plurality of lifting legs, a lifting structure vertically movable on the lifting legs, said lifting structure comprising a rigid lifting frame for holding the tower for a wind generator under assembly, said rigid lifting frame comprising load transfer members and said lifting structure comprising self-climbing mechanisms interacting between the load transfer members and the lifting legs for elevating or lowering the lifting structure, at least a first set of gripping arms movable relative to the rigid lifting frame between a retracted configuration and a gripping configuration, the self-climbing mechanisms being situated below the load transfer member to push the load transfer member during lifting of the tower for a wind generator under assembly. 2. The system according to claim 1 , the rigid lifting frame comprising a plurality of braced frame structures distributed around a central axis of the rigid lifting frame and each associated with a respective lifting leg, the braced frame structures being interconnected by top and bottom interconnecting structures. 3. The system according to claim 2 , wherein each braced frame structure comprises at least one oblique beam extending obliquely with a distance to a central axis of the rigid lifting frame increasing going downwards from the top interconnecting structure to a corresponding load transfer member. 4. The system according to claim 3 , wherein each braced frame structure comprises at least one vertical beam extending between said top and bottom interconnecting structures. 5. The system according to claim 2 , wherein each braced frame structure comprises a diagonal brace extending from the load transfer member to the bottom interconnecting structure. 6. The system according to claim 2 , wherein each braced frame structure is symmetrical about a mid-plane of symmetry containing the longitudinal axis of an adjacent lifting leg. 7. The system according to claim 1 , wherein the self-climbing mechanisms for elevating or lowering the rigid lifting frame relative to the lifting legs each comprising a first stage and a second stage connected by at least one expendable structure. 8. The system of claim 7 , the first and second stages being provided with releasable latches for selectively anchoring on the lifting legs. 9. The system according to claim 1 , wherein each arm of the first set of gripping arms being articulated between a working position where the arm is substantially horizontal and bears against the bottom interconnecting structure and a retracted position, each arm being articulated close to a gripping end of the arm to a sustaining strut extending diagonally when the arm is in the working position between said arm and a fixed guiding element, said strut comprising a slide and said fixed guiding element engaging said slide so that when the arm is in the working position the guiding element is bearing against a stop of said slide to take a strain of the strut, said slide moving relative to the guiding element when the arm is moved toward its retracted position to allow pivoting of said arm. 10. The system according to claim 9 , wherein the arm is articulated at a proximal end of the arm to a support mounted on the slide allowing to move the proximal end of the arm radially outwards once the arm has been raised. 11. The system according to claim 1 , further comprising a second set of gripping arms different from the first set and configured for holding a subsection of the tower having an external diameter larger than an external diameter of the subsection the first gripping arms are capable of gripping. 12. The system according to claim 1 , wherein the load transfer members each comprise at least one adjustable guide configured to engage a climbing rail of the corresponding lifting leg to transfer horizontal wind loads from the tower for a wind generator under assembly to the lifting leg. 13. The system according to claim 1 , further comprising monodirectional sliding bearings at windows of the subsection of the tower for a wind generator under assembly in which the gripping arms can engage. 14. The system of claim 1 , each load transfer member being substantially U-shaped, with the branches of the U extending on either side of the lifting leg. 15. A method for erecting a tower for a wind generator, comprising elevating subsection(s) (Si) of the tower for a wind generator under assembly with a system according to claim 1 , comprising: a plurality of lifting legs, a lifting structure vertically movable on the lifting legs, said lifting structure comprising a rigid lifting frame for holding the tower for a wind generator under assembly, said rigid lifting frame comprising load transfer members to which lifting forces are applied for raising the lifting structure, at least a first set of gripping arms movable relative to the rigid lifting frame between a retracted configuration and a gripping configuration and configured for engaging a subsection of the tower, in which method a transfer of horizontal loads from the lifting structure or the tower to the lifting legs occurs only through the load transfer members. 16. A method for erecting a tower for a wind generator, comprising elevating subsection(s) of the tower for a wind generator under assembly with a system according to claim 1 , the system comprising: a plurality of lifting legs, a lifting structure vertically movable on the lifting legs, said lifting structure comprising a rigid lifting frame for holding the tower for a wind generator under assembly, said rigid lifting frame comprising load transfer members and said lifting structure comprising self-climbing mechanisms interacting between the load transfer members and the lifting legs for elevating or lowering the lifting structure, at least a first set of gripping arms movable relative to the rigid lifting frame between a retracted configuration and a gripping configuration and configured for engaging a subsection of the tower, in which method: a lower end of the tower for a wind generator under assembly is elevated using the self-climbing mechanisms at a height sufficiently high in order to allow for inserting below the tower for a wind generator under assembly a next subsection to be assembled with raised subsection(s) of the tower, the lifting structure is lowered so that the lower end of the tower for a wind generator under assembly can be assembled to this subsection, the griping arms are disengaged from the tower for a wind generator under assembly, the lifting structure is lowered to enable the griping arms to engage the subsection situated at a bottom of the tower for a wind generator under assembly. 17. A system for assembling a tower for a wind generator comprising a succession of subsections (Si), the system comprising: a plurality of lifting legs, a lifting structure vertically movable on the lifting legs, said lifting structure comprising a rigid lifting frame for holding the tower for a wind generator under assembly, said rigid lifting frame comprising load transfer members and said lifting structure comprising self-climbing mechanisms interacting between the load transfer members and the lifting legs for elevating or lowering the lifting structure, at least a first set of gripping arms movable relative to the rigid lifting frame between a retracted configuration and a gripping configuration, the rigid lifting frame comprising a plurality of bra