Articulated prosthesis or orthosis joint

The invention claimed is: 1. A prosthesis or orthosis for an ankle or any other joint comprising: a first body, a second body and an articulated joint between said bodies, the articulated joint allowing the rotation of said bodies with respect to one another; a mechanical converting mechanism including a third body, said mechanical converting mechanism being a passive mechanical converting mechanism, said third body arranged movably with respect to said first body and said second body; an elastic element affixed on said third body and/or said second body in a configuration that stores energy in the elastic element during a dorsal flexion phase of a gait cycle; said mechanical converting mechanism being disposed for converting an angular change between said first body and said second body, indicated as an input angular change, into a change of load on said elastic element, the converting resulting in a change at an output of said mechanical converting mechanism for stretching or compressing the elastic element; and ratio adapting means interacting with said mechanical converting mechanism arranged for modifying a conversion ratio by which the change of load on the elastic element is performed, said ratio adapting means setting the conversion ratio, the conversion ratio being defined as an amplitude of change at said output of said mechanical converting mechanism divided by the input angular change. 2. The prosthesis or orthosis according to claim 1 , wherein the converting of the mechanical converting mechanism results in a change at the output of the mechanical converting mechanism, which is an output angular change applied between said second body and said third body. 3. The prosthesis or orthosis according to claim 1 , wherein a combination of said elastic element with said mechanical converting mechanism forms an elastic system mounted between said first body and said second body, which elastic system has a stiffness that is set independently from a stiffness of said elastic element thereof by setting the conversion ratio for the converting mechanism thereof with the ratio adapting means. 4. The prosthesis or orthosis according to claim 1 , wherein: said elastic element is part of a passive elastic mechanism in which energy is stored or from which energy is released as a function of the relative position between the bodies, the passive elastic mechanism providing a stiffness to the articulated joint; and the ratio adapting means is provided for modifying the elasticity of the passive elastic mechanism in order to set the stiffness of the articulated joint. 5. The prosthesis or orthosis according to claim 1 , wherein due to a change of angular position between said first body and said second body out of an equilibrium position, energy is stored in said elastic element. 6. The prosthesis or orthosis according to claim 1 , wherein said elastic element allows a rotation between said second body and said third body when torque is executed between said second body and said third body, said elastic element being loaded or unloaded during such a rotation depending on whether the elastic element is storing or releasing mechanical energy. 7. The prosthesis or orthosis according to claim 1 , wherein energy is stored in said elastic element due to a rotation of said first body towards said second body. 8. The prosthesis or orthosis according to claim 1 , wherein said ratio adapting means is formed by a locking mechanism. 9. The prosthesis or orthosis according to claim 1 , wherein the articulated joint includes a shaft mounted rotatably on said second body, said shaft additionally being mounted fixedly with respect to said first body. 10. The prosthesis or orthosis according to claim 1 , wherein said first body and said second body are coupled at one end to each other by the articulated joint, said first body and said second body extending from said articulated joint and defining extending body parts. 11. The prosthesis or orthosis according to claim 1 , wherein said ratio adapting means are such that during a relative rotation of said first body and said second body in a first sense, the conversion ratio is different from the ratio performed during a relative rotation of said first body and said second body in the opposite sense. 12. The prosthesis or orthosis according to claim 11 , wherein said ratio adapting means are such that the conversion ratio is modified to be higher during a relative rotation of said first body and said second body in a first case corresponding to the dorsal flexion phase of a gait cycle, wherein a smallest angle between said extending body parts is decreased, as compared to the conversion ratio during a relative rotation of said first body and said second body in an opposite case corresponding to a plantar flexion phase of a gait cycle, wherein the smallest angle between said extending body parts is increased. 13. The prosthesis or orthosis according to claim 1 , wherein said elastic element includes a helical spring. 14. The prosthesis or orthosis according to claim 1 , wherein the ratio adapting means consist of a locking or braking mechanism for locking and unlocking one of the first body, second body and third body to one another of said bodies.