Process for the formation of a stack of superposed metallic laminations

The invention claimed is: 1. A process for the formation of a stack of superposed metallic laminations, characterized in that it comprises the steps of: a—producing a first metallic lamination comprising at least one assembly of coupling elements, including one insertion clamp, one receiving clamp and one receiving window, said coupling elements maintaining the same relative positioning from one another, the insertion clamp and the receiving clamp having an axial projection disposed on a first surface of the first metallic lamination so as to define a recess on a second surface of the first metallic lamination, the second surface being opposite the first surface, and wherein the recess of the receiving clamp is wider than the recess of the insertion clamp, and wherein the recess of the receiving clamp is configured to receive the axial projection of the insertion clamp; b—conducting the first lamination produced to a support matrix, wherein upon receiving a lamination, the support matrix submits the lamination to a displacement which takes the form of a rotation around the central axis of said lamination in order to allow the correct axial alignment between the coupling elements of a last lamination received on the support matrix and the coupling elements of the next lamination to be received on the support matrix after being detached from the metallic plate; c—producing a second lamination, as defined in step “a” for the production of the first lamination; d—displacing the support matrix with the first lamination, in order to align, axially, the receiving clamp and the insertion clamp of the second lamination with the receiving window and with the receiving clamp, respectively, of the first lamination; e—conducting the second lamination to the support matrix, pressing the second lamination against the first lamination, in order to house the receiving clamp of the second lamination in the receiving window of the first lamination and to fit, by interference, the insertion clamp of the second lamination, in the receiving clamp of the first lamination; f—producing a third lamination, as defined in step “a” to “c”; g—displacing the support matrix with the first and the second lamination in order to align, axially, the receiving clamp and the insertion clamp of the third lamination with the receiving window and with the receiving clamp, respectively, of the second lamination; h—conducting the third lamination to the support matrix, pressing the third lamination against the second lamination, in order to house the receiving clamp of the third lamination in the receiving window of the second lamination and to fit, by interference, the insertion clamp of the third lamination in the receiving clamp of the second lamination; and i—repeating the steps from “c” to “h”, until finishing the stacking of the laminations that define the lamination stack. 2. The process, according to claim 1 , characterized in that the insertion clamp and the receiving clamp are defined by respective portions of the first lamination, second lamination and third lamination formed by cutting and drawing the latter, the insertion clamp presenting a similar shape inscribed in an inner contour of the receiving clamp. 3. The process, according to claim 1 , characterized in that the coupling elements of the at least one assembly are arranged within the same circumferential alignment and equally spaced from each other by the same angular distance, the support matrix being angularly displaced before receiving the second lamination subsequent to the first lamination. 4. The process, according to claim 3 , characterized in that the each lamination is provided with at least two assemblies of coupling elements, each of said assemblies comprising, sequentially, one insertion clamp, one receiving clamp and one receiving window, said assemblies being spaced from one another by the same angular distance. 5. The process, according to claim 3 and to be used in the formation of a stator or a rotor of an electric motor, characterized in that the circumferential alignment of the coupling elements is median and concentric to the contour of the lamination.