Patent Number: 
Section: claims

1. A storage device (1) for transporting and/or storing nuclear fuel assemblies, said device including:a plurality of adjacent housings (2), each for receiving a nuclear fuel assembly,several stacked stages (E1, E2) along a stacking direction (8) parallel to the longitudinal axes (4) of the housings, the housings being delimited fully or partly by said stages,first stages (E1, Ei−1, Ei+1) for neutron absorption and thermal conductivity, andsecond stages (E2, Ei) for mechanical strength alternately arranged with the first stages along said stacking direction (8),wherein each first stage (E1, Ei−1, Ei+1) comprises at least one notched assembly (6a) extending along a first direction (10) orthogonal to the stacking direction (8), as well as at least one second notched assembly (6b) extending along a second direction (12) orthogonal to the first direction (10) as well as to the stacking direction (8), the first and second assemblies being interlaced and each including at least one element of aluminium alloy comprising boron,wherein each second stage (E2, Ei) including comprises at least one first structure (7a) extending along the first direction (10) as well as at least one second structure (7b) extending along the second direction (12), the first and second structures being stacked along the stacking direction (8) and each made of one or more materials free of neutron absorbing elements, the first and second structures being each free of notches on their opposite edges along the stacking direction, and each having a transverse cross-section with a height substantially constant all along the stacking direction, andwherein for at least one of the second stages (Ei) on either side of which a first stage (Ei−1) and a first stage (Ei+1) are arranged, the first structure (7a) of the second stage (Ei) rests on an edge (6a″) of the first notched assembly (6a) of the first stage (Ei−1) and passes through a notch (22″) of the second notched assembly (6b) of this first stage (Ei−1), whereas an edge (6b′) of the second notched assembly (6b) of the first stage (Ei+1) rests on the second structure (7b) of the second stage (Ei,), the edge (6b′) of the second notched assembly (6b) of the first stage (Ei+1) passing through a notch (24′) of the first notched assembly (6a) of this first stage (Ei+1). 2. The storage device according to claim 1, wherein the first and second assemblies (6a, 6b) have notches on each of their opposite edges along the stacking direction (8). 3. The storage device according to claim 1, wherein the alternate first structures (7a) and first notched assemblies (6a) form a first housing separating partition (9), on either side of which two housings (2) are at least delimited, and in that the alternate second structures (7b) and second notched assemblies (6b) form a second housing separating partition (11), on either side of which two housings (2) are at least delimited, the first and second separating partitions being orthogonal to each other. 4. The storage device according to claim 3, wherein each first and second partition (9, 11) has a substantially constant thickness (Ep). 5. The storage device according to claim 1, wherein each first stage (E1, Ei−1, Ei+1) has, outside an interlaced zone between the first and second notched assemblies (6a, 6b), a first mean height (H1) along the stacking direction (8), in that each second stage (E2, Ei) has, outside a crossing zone between the first and second structures (7a, 7b), a second mean height (H2) along the stacking direction (8), and in that the first and second mean heights (H1, H2) fulfil the condition 0.1<H2/H1<0.35. 6. The storage device according to claim 1, wherein the first height (H1) is higher than 100 mm. 7. The storage device according to claim 1, wherein the boron content in at least some of said elements of aluminium alloy of the first and second notched assemblies (6a, 6b) is higher than 25 mg/cm3. 8. The storage device according to claim 1, wherein each first and second structure (7a, 7b) is made of steel. 9. The storage device according to claim 1, wherein each second stage (E2, Ei) includes a junction pin (20) at a crossing zone between the first and second structures (7a, 7b) through which this junction pin at least partially passes. 10. The storage device according to claim 1, wherein the first and second structures (7a, 7b) are each of a square or rectangular cross-section. 11. The storage device according to claim 1, wherein the first and second structures (7a, 7b) each have a cross-section with a uniform or non-uniform width. 12. The storage device according to claim 1, wherein water ports (42) extending along the stacking direction (8) pass through each of the first and second structures (7a, 7b). 13. The storage device according to claim 1, wherein the first and second structures (7a, 7b) are each made as a single piece. 14. The storage device according to claim 1, wherein the first and second interlaced notched assemblies (6a, 6b) are each made as a single piece, or with several pieces (56, 58) assembled to each other and preferably delimiting an empty space (50) between them. 15. The storage device according to claim 1, further comprising peripheral walls (14) arranged at the periphery of the first and second stacked stages, said peripheral walls delimiting a part of some of the housings. 16. The storage device according to claim 1, configured such that in an assembled configuration, clearances along the stacking direction (8) are provided at the crossing/interlacing zones between the elements (6a, 6b, 7a, 7b). 17. A package for storing and/or transporting nuclear fuel assemblies, the package comprising a cavity in which a storage device (1) according to claim 1 is housed. 18. A pack comprising a package according to claim 17, as well as fuel assemblies arranged in the housings of the storage device of this package.