Deployable underwater device

The invention claimed is: 1. An underwater device intended to be deployed in the water, the device comprising: a set of arms articulated to a support body having a reference axis r, the arms being able to be kept in a furled configuration and able to deploy into a deployed configuration wherein the arms extend about the reference axis r, the arms deploying by distal ends (ED) of the arms moving away from the axis r, a set of at least one bending spring stressed elastically in bending when the arms are kept in a furled configuration and able to relax when the arms are released from the furled configuration, the set of at least one bending spring being configured and arranged in such a way as to exert, on at least one of the arms, when the arms are released from the furled configuration, a thrust that instigates the deploying of the arms, wherein at least one bending spring comprises an anchoring part (PA) that is fixed with respect to the reference axis r and a deformable part (PD) that deforms when said bending spring relaxes, the deformable part (PD) being wound around the reference axis when the arms are being kept in the furled configuration, and unwinding as said bending spring relaxes. 2. The underwater device as claimed in claim 1 , wherein the bending spring is arranged in such a way as to deform essentially in a plane perpendicular to the reference axis as it relaxes. 3. The underwater device as claimed in claim 1 , wherein the arms are angularly distributed about the reference axis r of the support body. 4. The underwater device as claimed in claim 3 , wherein the bending spring comprises the anchoring part (PA) that is fixed with respect to the axis r and the deformable part (PD) that deforms as the bending spring relaxes, the deformable part (PD) extending about the axis r, when the arms are being kept in the furled configuration, over an angular sector (SA) comprising a reference angular sector (SR) delimited by a first arm of the set of arms on which the bending spring exerts a thrust so as to instigate its deployment as it relaxes and by a second arm of the set of arms, which arm is adjacent to the first arm. 5. The underwater device as claimed in claim 4 , wherein the deformable part (PD) extends beyond the reference angular sector (SR), on the side of the second arm. 6. The underwater device as claimed in claim 4 , wherein the deformable part (PD) extends beyond the reference angular sector (SR), on the side of the first arm. 7. The underwater device as claimed in claim 4 , wherein the deformable part (PD) comprises a free end (EL) lying beyond the reference sector (SR) in the opposite direction to the second arm when starting from the first arm. 8. The underwater device as claimed in claim 1 , wherein the set of at least one bending spring comprises several bending springs, each bending spring being configured and arranged in such a way as to instigate the deployment of a single arm. 9. The underwater device as claimed in claim 8 , wherein the bending springs are superposed when the arms are being kept in the furled configuration. 10. The underwater device as claimed in claim 1 , wherein the set of at least one bending spring is positioned close to the distal end of the arm. 11. The underwater device as claimed in claim 1 , comprising retaining means able to keep the arms in the furled configuration and to release them, said retaining means comprise a flexible clamping band placed under elastic bending in order to surround the arms so as to keep them in the furled configuration, the flexible band being kept under bending by two pins, the flexible band being released by driving just one of the two pins in a translational movement with respect to the flexible band along the reference axis. 12. The underwater device as claimed in claim 1 , being an air-launchable sonobuoy. 13. The underwater device as claimed in claim 1 , wherein the bending spring is stressed in bending overall, when the arms are being kept in the furled configuration, and works in bending overall when the arms are released. 14. The underwater device as claimed in claim 1 , wherein the thrust that instigates the deployment of the arm has a component that is radial with respect to the reference axis.