MECHANICAL ADJUSTMENT VIA AN ELECTROMAGNETIC FIELD

摘要

The subject of the present application is the creation of mechanical connections by self-managed electromagnetic self-regulation. Specifically, the mechanical adjustments are tolerances of fit designed for connecting mechanical components and mechanical members that are in relative motion with respect to one another. These dimensions are achieved on components at the time of machining and they are then fitted together. The wearing of these mechanical components and of the fits meets standards by the person skilled in the art. During a dynamic phase, the components are subjected to knocks, shakes, heating and stresses of all kinds of pressure, extension and torsion. The initial clearances change through the effect of the mechanical knocks, of rubbing surfaces which heat up, and all this occurs in environments that are modified according to the functions. It is therefore difficult to adapt the true clearances involved between the mechanical components. The present application alleviates this uncertainty on the tolerances with a certain degree of flair because instead of being a pure mechanical function it is a magnetic function that becomes the practical and functional solution. It is automatically induced by the stresses which, because of the properties of the materials, and notably because of the elasticity of the materials and their reactiveness, emit electromagnetic waves that are diffuse. Channelling these electromagnetic waves in magnetic zones or intense magnetic levels allows these forces to be used and to act by concentrating them in part so that they act like self-induced magnets and thus create electromagnetic cushions which act in the air, the space within the joint thus filling the mechanical clearances in the mechanical tolerance space. The mechanical clearances and uncertainty on tolerance values are thus definitively settled.