Friction assembly, brake caliper and manufacturing method

The invention claimed is: 1. A friction assembly, comprising: a support plate comprising at least a support plate organic matrix, at least one brake pad comprising at least a brake pad organic matrix, and at least one reinforcing foil of said plate; wherein the brake pad and the support plate are simultaneously co-moulded from both said support plate organic matrix and said brake pad organic matrix, and wherein where said support plate overlaps said at least one brake pad said support plate has no through holes, wherein the reinforcing foil is fixed to the support plate via anchoring projections, joined to and that develop away from said foil, embedded in said resin to prevent or limit deformations of the support plate in the use of said assembly; wherein where said reinforcing foil overlaps said at least one brake pad, said reinforcing plate has no through holes, wherein the brake pad is co-moulded to an opposite surface of the support plate with respect to the surface to which the reinforcing foil is anchored to create a sandwich structure. 2. The assembly according to claim 1 , wherein the anchoring projections are distributed on a surface of the reinforcing foil with a density at least equal to, or greater than, about 1-40 projections/cm 2 , to achieve a monolithic union between the reinforcing foil and the support plate. 3. The assembly according to claim 1 , wherein the anchoring projections are made in one piece with the reinforcing foil. 4. The assembly according to claim 1 , wherein the anchoring projections only protrude from a surface of the reinforcing foil, facing the support plate. 5. The assembly according to claim 1 , wherein the reinforcing foil has a maximum thickness of about 2 millimetres, and a minimum thickness of about 0.5 millimetres. 6. The assembly according to claim 1 , wherein the support plate comprises, through its thickness, one or more holes suitable to be engaged in a translatable manner by the guides of a brake caliper, and wherein the reinforcing foil delimits openings at least partially aligned with said holes. 7. The assembly according to claim 1 , wherein the reinforcing foil is made of a metallic material or of a composite material and wherein said assembly comprises at least one protective layer at least partially covering the reinforcing foil. 8. The assembly according to claim 1 , said at least one a heat-resistant resin comprises phenolic resin. 9. The assembly according to claim 1 , wherein the heat-resistant resin of the support plate is partially loaded with non-metallic reinforcement fibres, said fibres being selected from the group consisting of carbon fibres, glass fibres, boron fibres, silica fibres, silicon carbide fibres, ceramic fibres and mixtures thereof. 10. The assembly according to claim 9 , wherein the reinforcement fibres are of an average length equal to or greater than about 12 millimetres, or comprised in the range of 4 to 11 millimetres. 11. The assembly according claim 9 , wherein the reinforcement fibres are oriented prevalently or exclusively along a transversal stress direction of said brake pad, in a configuration of correct use of said assembly in a disc brake caliper. 12. A method of making a friction assembly, comprising the steps of: simultaneously co-moulding a support plate and at least one brake pad from at least one heat-resistant resin, the at least one heat-resistant resin being received in a mould delimiting two juxtaposed or superposed cavities, wherein where said support plate overlaps said at least one brake pad, said support plate has no through holes; fixing a reinforcing foil to the support plate by embedding in said resin anchoring projections, joined to and that develop away from said foil, to prevent or limit deformations of the support plate in the use of said assembly, wherein where said reinforcing foil overlaps said support plate, said reinforcing foil has not through holes; wherein the brake pad is co-moulded to an opposite surface of the support plate with respect to the surface to which the reinforcing foil is anchored, to create a sandwich structure; wherein said support plate comprises at least a support plate organic matrix and said at least one brake pad comprises at least a brake pad organic matrix. 13. The method according to claim 12 , wherein the co-moulding step and the fixing step takes place partially simultaneously, during one or more steps of compression moulding. 14. A friction assembly, comprising: a support plate comprising at least a support plate organic matrix, at least one brake pad comprising at least a brake pad organic matrix, and at least one reinforcing foil of said plate; wherein the brake pad and the support plate are simultaneously co-moulded from at least one heat-resistant resin to realize both said support plate organic matrix and said at least a brake pad organic matrix, wherein where said at least one brake pad and said support plate overlap, there are no through holes in said support plate, and wherein the reinforcing foil is fixed to the support plate via anchoring projections, joined to and that develop away from said foil, embedded in said resin to prevent or limit deformations of the support plate in the use of said assembly, wherein where said reinforcing foil overlaps with said support plate there are no through holes in said reinforcing foil; wherein the brake pad is co-moulded to an opposite surface of the support plate with respect to the surface to which the reinforcing foil is anchored, to create a sandwich structure.