Backpack support module for a modular exoskeleton structure

The invention claimed is: 1. A modular exoskeleton structure that provides force assistance to a user, comprising a base module comprising a lumbar belt capable of surrounding a lower trunk of the user, two hip modules capable of being attached to two respective thighs of the user, and a backpack support module, the modular exoskeleton structure comprising: a hoop designed to be anchored to the two hip modules; and a support rod, having a first end connected to the hoop, a second end, opposite the first end and capable of being engaged in a pouch of a backpack to suspend the backpack to the backpack support module, and a longitudinal axis extending from the first end to the second end, the support rod being designed to extend along the back of the user, wherein the support rod comprises a first rod element, a second rod element capable of sliding with respect to the first rod element along the longitudinal axis, so as to vary a length of the support rod defined between the first end and the second end, and a damper for cushioning a movement of the second rod element with respect to the first rod element caused by the walking of the user. 2. The modular exoskeleton structure according to claim 1 , wherein the first end of the support rod is connected to the hoop by a pivot connection allowing rotation of the support rod with respect to the hoop. 3. The modular exoskeleton structure according to claim 2 , wherein the pivot connection allows the rotation of the support rod with respect to the hoop around an anterior-posterior axis of the user for accommodating lateral swings of the backpack during walking or running. 4. The modular exoskeleton structure according to claim 1 , wherein the damper comprises an elastic element arranged between the first rod element and the second rod element. 5. The modular exoskeleton structure according to claim 4 , wherein the elastic element has a stiffness greater than or equal to 2000 Newtons per meter. 6. The modular exoskeleton structure according to claim 1 , wherein the damper comprises a cylinder and a piston capable of sliding inside the cylinder, the piston delimiting, in the interior of the cylinder at least one chamber containing a fluid, the sliding of the piston inside the cylinder causing compression of the fluid contained in the at least one chamber. 7. The modular exoskeleton structure according to claim 6 , wherein the backpack support module comprises means for modifying a volume of the at least one chamber so as to adjust a damping ratio of the damper. 8. The modular exoskeleton structure according to claim 1 , wherein the backpack support module comprises a bellows type protective seal connecting the first rod element to the second rod element and allowing lengthening of the support rod and/or rotation of the support rod with respect to the hoop while preventing a penetration of liquid or debris inside the support rod or the damper. 9. The modular exoskeleton structure according to claim 1 , wherein the backpack support module comprises an attachment part for attaching the hoop to one of the two hip modules of the modular exoskeleton structure, the attachment part being capable of being snapped into a complementary attachment part mounted fixedly on the one of the two hip modules. 10. The modular exoskeleton structure according to claim 9 , wherein the attachment part is mounted movable in rotation and in translation on the hoop by means of a ball joint. 11. The modular exoskeleton structure according to claim 9 , wherein the attachment part forms, with the complementary attachment part a bayonet type attachment device, wherein one of the attachment part and the complementary attachment part comprises a radial pin, and the other one of the attachment part and the complementary attachment part comprises a slot in which the radial pin can slide, the slot being curved in such a manner that the sliding of the radial pin in the slot from an entrance of the slot to one end of the slot necessitates a combined translation and rotation movement of the one of the attachment part and the complementary attachment part with respect to the one of the attachment part and the complementary attachment part, the translation being accomplished successively along a first direction, then along a second direction opposite to the first direction. 12. The modular exoskeleton structure according to claim 1 , wherein the second rod element is telescoping. 13. The modular exoskeleton structure according to claim 1 , wherein the second rod element is formed of a synthetic material reinforced with carbon fibers. 14. The modular exoskeleton structure according to claim 1 , wherein the second rod element comprises an end portion formed of metal. 15. The modular exoskeleton structure according to claim 1 , wherein the backpack support module comprises a force sensor for evaluating a mass of the backpack when the backpack is suspended to the backpack support module. 16. The modular exoskeleton structure according to claim 1 , comprising two attachment devices for attaching the backpack support module to the two hip modules, each attachment device comprising a first part attached to one of the two hip modules and a second part connected to one end of the hoop, the second part being capable of being snapped into the first part to anchor the hoop to the two hip modules. 17. The modular exoskeleton structure according to claim 1 , in combination with the backpack comprising the pouch in which the second end of the support rod can be engaged to suspend the backpack to the backpack support module.