Hydrogen storage tank comprising metal hydrides produced through simplified manufacture and storage device comprising at least such a tank

The invention claimed is: 1. A hydrogen storage material tank for a device for hydrogen storage by absorption in a hydrogen storage material, comprising: a shell along a longitudinal axis sealed at both its longitudinal ends; a hydrogen supply and collection duct extending along the longitudinal axis; a stack of plural cups along the longitudinal axis, wherein each cup comprises a base approximatively perpendicular to the longitudinal axis, a passage allowing installation of the cup around the duct, an outer wall perpendicular to the base, in contact with the shell, and an inner wall perpendicular to the base and in contact with the duct, wherein the outer wall has a dimension along the longitudinal axis greater than that of the inner wall such that its free end is in contact with the base of the cup located above in the stack, wherein each cup is press-fitted on the duct and each cup comprises means allowing mutual engagement of the cups in one another by mechanical deformation of the free ends of the outer walls of the cups. 2. A tank according to claim 1 , wherein the means allowing mutual engagement of the cups in one another by mechanical deformation includes a deformable area of the outer walls located at the free ends and having portions angled in relation to the longitudinal axis. 3. A tank according to claim 2 , wherein each deformable area comprises, on the free end side of the outer wall, a portion angled away from the longitudinal axis to display a flared shape facilitating mutual engagement of the base of the cup located above in the stack and at least one portion angled towards the longitudinal axis, and wherein each base of a cup has a diameter smaller than the largest internal diameter of the outer wall of the cup. 4. A tank according to claim 1 , wherein the duct is formed of plural duct portions superimposed along the longitudinal axis. 5. A tank according to claim 4 , wherein each duct portion comprises on its longitudinal ends means for guiding positioning of the duct portions in relation to one another. 6. A tank according to claim 5 , wherein each duct portion comprises a male connection end and a female connection end such that the duct portions are connected to one another. 7. A tank according to claim 6 , wherein the male connection ends and female connection ends are conical in shape, with a vertex angle less than or equal to 45°. 8. A tank according to claim 1 , wherein the cups are executed in a material with good thermal conductivity. 9. A tank according to claim 1 , wherein the duct is made of porous material. 10. A tank according to claim 1 , wherein the inner wall of each cup comprises a flared free end. 11. A tank according to claim 1 , further comprising clamping means exerting a clamping force along the longitudinal axis between the cups located at longitudinal ends of the stack. 12. A tank according to claim 11 , wherein the clamping means comprises a longitudinal element installed in the duct, a support piece abutting against a base of one of the end cups, and a clamping nut screwed on the longitudinal element and resting on the free end of the inner wall of the cup located at the other longitudinal end. 13. An assembly of a tank according to claim 1 and a hydrogen storage material arranged in each of the cups, the storage material in powder form representing between 40% and 60% of the volume of the cup.