Pneumatic structure and associated production method

The invention claimed is: 1. A pneumatic structure comprising an elastically deformable body defining at least one network of internal cavities, each internal cavity having a closed contour in at least one section of the internal cavity, each internal cavity being configured to be pressurized so as to cause the elastically deformable body to pass from a rest configuration to at least one pressurized configuration, the elastically deformable body having in each pressurized configuration, a macroscopic metric that is distinct from a macroscopic metric in the rest configuration; a radius of curvature of an exterior surface of the elastically deformable body, taken opposite each internal cavity adjacent to the exterior surface, is greater than two times the size of said internal cavity adjacent to the exterior surface in each pressurized configuration, wherein each internal cavity is delimited laterally, in said at least one section, by two lateral walls, by a lower region and by an upper region of the elastically deformable body, wherein said two lateral walls are part of the elastically deformable body, and wherein the elastically deformable body is produced from an elastomer-based material. 2. A structure according to claim 1 , in which, in each pressurized configuration, a width of each internal cavity is less than three times a distance from the internal cavity to the exterior surface of the elastically deformable body. 3. A structure according to claim 1 , in which in at least one section, the width of said internal cavity, taken between the lateral walls is less than three times a thickness of the elastically deformable body. 4. A structure according to claim 1 , in which in at least one section, a thickness of the upper region or/and a thickness of the lower region, taken opposite the internal cavity is greater than half a width of the internal cavity, taken between the lateral walls. 5. A structure according to claim 1 , comprising a plurality of adjacent internal cavities separated from one another by lateral walls, a length of the lateral walls being greater than the width of the internal cavity. 6. A structure according to claim 5 , wherein the lateral walls extend radially in relation to a central axis, or circumferentially around a central axis. 7. A structure according to claim 1 , comprising a plurality of adjacent internal cavities separated from one another by pillars, a distance between the exterior surfaces of the pillars being less than two times a thickness of the upper and lower region. 8. A structure according to claim 1 , in which at least one internal cavity of the elastically deformable body is configured to receive a pressure in a range between the opposite of atmospheric pressure and four times an elastic modulus of the elastically deformable body, the elastically deformable body having a first macroscopic metric when said pressure applied is the opposite of atmospheric pressure, and a second macroscopic metric that is distinct from the first macroscopic metric when said pressure applied is four times the elastic modulus. 9. A structure according to claim 1 , in which each internal cavity in each pressurized configuration has a section with an area that is less than 400% of the area of the section of the internal cavity in the rest configuration. 10. A structure according to claim 1 , comprising an internal reinforcing framework deployable between a contracted state and a deployed state during the transition of the elastically deformable body passing from the rest configuration to the pressurized configuration, the internal reinforcing framework having in the deployed state an elastic modulus that is greater than an elastic modulus of the elastically deformable body in order to stiffen the elastically deformable body. 11. A structure according to claim 10 , wherein a thickness of the internal reinforcing framework is at least 10 times smaller than a greatest dimension of the internal reinforcing framework. 12. A structure according to claim 10 , in which the internal reinforcing framework includes a network of wires that is unstretched in the contracted state and stretched in the deployed state, or at least one tier of inextensible sheeting cut-out. 13. A structure according to claim 1 , wherein the at least one network of internal cavities comprises a first network of internal cavities that is capable of being pressurized, and at least a second network of internal cavities that is capable of being pressurized independently of the first network of internal cavities. 14. A structure according to claim 13 , wherein the first network of internal cavities and the second network of internal cavities are tiered. 15. A structure according to claim 1 , consisting of a biomedical equipment item/unit, a recreational and/or rehabilitation equipment item/unit, a furniture component, an industrial equipment item/unit having an adaptable form or shape. 16. A production method for producing a structure according to claim 1 , comprising: molding of a first part of the elastically deformable body having each internal cavity, with each internal cavity being open; closing of each internal cavity by applying a second part of the elastically deformable body over the first part of the elastically deformable body. 17. A method according to claim 16 , comprising, when molding, the incorporation of an internal reinforcing framework deployable between a contracted state and a deployed state during the transition of the elastically deformable body passing from the rest configuration to the pressurized configuration, with the internal reinforcing framework in the deployed state locking-in the elastically deformable body in the pressurized configuration.