Coupling system of a sealing assembly with a rotating annular element

The invention claimed is: 1. A combination of a coupling system and a sealing unit, the coupling system comprising: an annular rotating member, the annular rotating member defining a mounting seat, the mounting seat comprising an annular groove bordered on axial sides thereof by a first circumferential discontinuity and a second circumferential discontinuity, the first circumferential discontinuity and the second circumferential discontinuity cooperate with a tubular portion of the sealing unit in order to locally increase a reaction force of a mounting cylindrical external surface, the sealing unit comprising: an annular shield provided with the tubular portion that is coupled with the annular rotating member such that the tubular portion compresses the annular rotating member and is positioned on the mounting seat extending over the first circumferential discontinuity, the annular groove, and the second circumferential discontinuity, wherein the tubular portion is formed by two cylindrical layers folded back on themselves, the tubular portion not protruding into the annular groove, the tubular portion directly contacting the first circumferential discontinuity and directly contacting the second circumferential discontinuity, the annular groove being free of material therein such that, when viewed in cross-section, the tubular portion and the annular groove define an empty space therebetween; and a flanged portion that radially protrudes cantilevered from the tubular portion; wherein the tubular portion is coupled with the mounting seat of the rotating member and is bordered by the mounting cylindrical external surface that provides the first circumferential discontinuity that cooperates with the tubular portion in order to increase locally in correspondence to the same first circumferential discontinuity a reaction force of the mounting cylindrical external surface; the reaction force being due to a radial elastic pressure exercised by the tubular portion against the mounting seat, wherein the sealing unit is free of elastomeric material. 2. The combination according to claim 1 , wherein the mounting seat has the second circumferential discontinuity that is parallel to the first circumferential discontinuity, and cooperates with the tubular portion in order to locally increase a reaction force of the mounting cylindrical external surface in correspondence to the second circumferential discontinuity; the reaction force being due to a radial elastic pressure applied by the tubular portion against the mounting seat. 3. The combination according to claim 1 , wherein the first and second circumferential discontinuity subtend respective contact angles that define the direction and the size of the relevant reaction forces. 4. The combination according to claim 1 , wherein the annular shield is made of metallic sheet that is machined and sheared so that the tubular portion can be elastically squeezable against the mounting seat.