Needle assembly and injection device with foldable needle protecting means

The invention claimed is: 1. A needle assembly for use with a container, comprising: i) a needle hub having a needle fixed thereon, said needle having a distal tip and ii) a needle safety system comprising: a protective ring capable of moving in translation with respect to said needle hub between a distal position, in which said protective ring surrounds at least the distal tip of said needle and in which said needle assembly is in one of a storage condition or end-of-use condition, and a proximal position, in which said protective ring leaves said distal tip uncovered and wherein said needle assembly is in a use condition, said protective ring being movable in said proximal position between intermediate positions in which the needle is partially inserted into an injection site and a most proximal position, in which the needle is fully inserted into said injection site; a mobile ring coupled to said needle hub and movable in translation with respect to said needle hub between a proximal position and a distal position; a foldable element coupled to said protective ring and to said needle hub, capable of going from an unfolded configuration, in which said protective ring is in its distal position, to a fully folded configuration, in which said protective ring is in its most proximal, position; a biasing element coupling said needle hub and said mobile ring, said biasing element capable of expanding from a stressed state to a rest state urging said foldable element from the fully folded configuration to the unfolded configuration when the needle is removed from the injection site; a retaining mechanism for maintaining said biasing element in an intermediate stressed state at least in the storage condition of the needle assembly; a deactivating mechanism for releasing said retaining mechanism during the insertion step of the needle; and a locking mechanism for maintaining said foldable element in the unfolded configuration in the end-of-use condition of said needle assembly, wherein said mobile ring forms at least part of said locking mechanism. 2. The needle assembly according to claim 1 , wherein said mobile ring forms at least part of said retaining mechanism and said deactivating mechanism when said mobile ring is in said proximal position, and wherein said mobile ring forms at least part of said locking mechanism when said mobile ring is in said distal position. 3. The needle assembly according to claim 1 , wherein said safety system further comprises: a fixed ring at least partially receiving said needle hub, and fixed in translation with respect to said needle hub, wherein said mobile ring is coupled to said fixed ring by said biasing element, and capable of being at least partially received within said fixed ring. 4. The needle assembly according to claim 3 , wherein said fixed ring is provided with a proximal radial abutment surface and said mobile ring is provided with a distal radial abutment surface, said biasing element is a helical spring located between said fixed ring and said mobile ring so that the distal end of said helical spring bears on said distal radial abutment surface and the proximal end of said helical spring bears on the proximal radial abutment surface, and said retaining mechanism comprising a cam provided with a recess, said cam being located on one of said fixed ring and mobile ring, and a peg located on the other one of said fixed ring and mobile ring, said peg being capable of moving within said cam between a locked state in which said needle assembly is in its the storage condition and said peg is engaged in said recess, said helical spring being in its intermediate stressed state, and a free state in which said peg is disengaged from said recess after activation of said deactivating mechanism, said needle assembly being then in one of its use or end-of-use conditions. 5. The needle assembly according to claim 1 , wherein at least part of said deactivating mechanism is located on said foldable element, said deactivating mechanism is activated when said foldable element is in the fully folded configuration. 6. The needle assembly according to claim 1 , wherein said foldable element comprises at least one leg having a proximal end pivotally coupled to said needle hub, and a distal end pivotally coupled to said protective ring, said leg being provided with a hinge dividing a length of said leg in a proximal segment and a distal segment, said proximal and distal segments being aligned on each other and parallel to said needle in the unfolded configuration of said foldable element, said proximal and distal segments pivoting about said hinge and extending radially outwardly in the fully folded configuration of said foldable element. 7. The needle assembly according to claim 6 , wherein said foldable element comprises at least two legs, the two legs being opposite each other with respect to said needle. 8. The needle assembly according to claim 6 , wherein said foldable element comprises at least three legs, said three legs being regularly angularly distributed around said needle. 9. The needle assembly according to claim 4 , wherein said cam being located on said fixed ring, said cam comprising a longitudinal track open at a distal end and closed at a proximal end, and a side track extending circumferentially and distally from a point of said longitudinal cam to a closed end, said side track forming said recess, said peg is located on said mobile ring and is disengageable from said side track by proximal translation and rotation of said mobile ring with respect to said fixed ring, said deactivating mechanism comprising at least a part of said proximal segments, said part of said proximal segments coming in abutment on a distal end of said mobile ring when said foldable element goes from the unfolded configuration to the fully folded configuration and said proximal segments extend radially outwardly, said part of proximal segments thereby pushing said mobile ring in the proximal direction, the movement of said peg in said side track thereby causing rotation of said mobile ring with respect to said fixed ring, thus disengaging said peg from said recess of said cam. 10. The needle assembly according to claim 4 , wherein said retaining mechanism comprises three cams and three pegs, each cam cooperating with a corresponding peg, said cams being regularly angularly distributed along a circumference of said fixed ring, said corresponding pegs being regularly angularly distributed along a circumference of said mobile ring. 11. The needle assembly according to claim 2 , wherein said locking mechanism comprises a groove located in a distal area of an outer wall of said proximal segment, and a radial rim located on an inner wall of said mobile ring, said radial rim being engaged in said groove in the end-of-use condition of said needle assembly, so as to prevent said hinge from allowing said proximal segment to pivot with respect to said distal segment. 12. The needle assembly according to claim 1 , further comprising at least one protection element for preventing access to the biasing element in the end of use condition of the needle assembly. 13. The needle assembly according to claim 9 , further comprising a protective cap intended to be mounted on said needle assembly when said needle assembly is in its storage condition, said protective cap being dimensioned so as to surround said needle assembly when it is mounted on said needle assembly. 14. The needle assembly according to claim 13 , wherein said protective cap comprises an elastomeric part extending proximally from an inner face of a distal transversal wall of said