Deformation control device for a resonant spring in a linear driving unit

The invention claimed is: 1. A linear driving unit comprising: a linear electric motor formed by a motor housing, which is electrically excited and affixed to a fixed structure, and by a magnetic armature which is coupled to a piston through a coupling means and displaced by the electric excitation of the motor housing, in a reciprocating axial movement, said piston coupling means and magnetic armature defining a compression movable assembly; a helical resonant spring, having an end coupled to the fixed structure and an opposite end coupled to the magnetic armature in order to be displaced by the latter and elastically deformed, in a reciprocating axial movement, and operating as a guide for the axial displacement of the piston and also actuating on the compression movable assembly, jointly with the linear electric motor, an energy absorbing means being provided directly and tightly, along and around one or more wire extensions of the resonant spring which presents a structural vibratory mode differing from a main vibrational mode of elastic deformation and, wherein the wire extensions are subject to radial, lateral or torsional deformations upon the reciprocating axial movement of the resonant spring, said energy absorbing means maintaining direct contact with the surface of the wire extension in said specific regions of the resonant spring, and maintaining the alignment of the piston/spring/cylinder and reducing stress over the spring wire; wherein the energy absorbing means is defined by one of a tubular coating and a semi-tubular coating, which surrounds part of the circumferential contour of said wire extension of the resonant spring, maintaining direct contact with the latter, said energy absorbing means being defined, in a single piece, by a plurality of semi annular segments which are spaced apart and connected to one another. 2. The linear driving unit, according to claim 1 , wherein the semi-annular segments are sequentially and alternately interconnected by their ends. 3. The linear driving unit, according to claim 2 , wherein the semi-annular segments are parallel to each other and interconnected by small longitudinal segments. 4. The linear driving unit, according to claim 1 , wherein the semi-tubular coating is formed by one of the materials defined by metallic strip, metallic wires, plastic material, thermoplastic material and thermoretractable plastic material, provided directly on the surface of the resonant spring.