Oven for carrying out heat treatments of friction elements, in particular brake pads, and associated method

The invention claimed is: 1. A tunnel oven for the heat treatment of friction elements, said oven comprising: a tunnel shaped protective casing extending longitudinally between mutually opposing first and second open ends, delimiting an inlet opening and an outlet opening of the tunnel oven; a conveyor device placed within the protective casing and moving between the inlet opening and outlet opening, the conveyor device having a resting surface designed for receiving a plurality of said friction elements to be treated to transport them between the inlet opening and the outlet opening; and at least one heating device arranged within the protective casing, wherein the heating device comprises: a radiating plate made of electrically conductive material arranged such that the radiating plate faces the resting surface, at a fixed and relatively small distance from the resting surface, and at least one inductor arranged facing the radiating plate and spaced apart therefrom on the side opposite to the conveyor device, the at least one inductor being designed to heat the radiating plate by means of electromagnetic induction to a preset temperature, the at least one inductor being connected to a power supply of alternating electric current and to a refrigerating liquid supplier for the inductor. 2. The tunnel oven according to claim 1 , further comprising at least one of a delivery fan or a suction fan hydraulically connected with at least one suction opening for ambient air, the suction opening being arranged externally to the protective casing, and with a plurality of suction slots arranged within the protective casing between the resting surface and the radiating plate, along respective opposite longitudinal sides of the resting surface and of the radiating plate, in order to create within the protective casing and between the resting surface and the radiating plate, a flow (F) of cooling air for the friction elements. 3. The tunnel oven according to claim 2 , wherein the suction slots are connected to a collecting manifold for the cooling air flow coming out from the protective casing, said collecting manifold being connected to a filtering device, arranged externally to the protective casing and in which an inlet is provided upstream of the filtering device in the collecting manifold for ambient air to be mixed with the cooling air flow exiting the protective casing in order to lower its temperature. 4. The tunnel oven according to claim 3 , wherein the filtering device is a bag filter. 5. The tunnel oven according to claim 2 , wherein the cooling air flow (F) is directed in counterflow to a feeding direction (D) of the conveyor device. 6. The tunnel oven according to claim 5 , wherein the cooling air flow is directed transversely to the feeding direction of the conveyor device. 7. The tunnel oven according claim 2 , wherein the cooling air flow (F) is fed into a chamber delimited by the resting surface, the radiating plate and by respective lateral walls of the protective casing, and within which chamber in use the friction elements to be treated are arranged, the resting surface of the conveyor device being air permeable, in that it consists of at least one of a net or metallic mesh, or of a perforated flexible element, or a plurality of rigid perforated elements connected to each other in an articulated manner; said cooling air flow being fed into the chamber through the resting surface of the conveyor device, from the bottom upwards. 8. The tunnel oven according to claim 1 , wherein the protective casing is insulated and contains a plurality of heating devices, which are independent of each other, arranged in sequence within the protective casing in the feeding direction (D) of the conveyor device and each one including a radiating plate and at least one inductor for heating the radiating plate by means of electromagnetic induction. 9. The tunnel oven according to claim 1 , wherein the radiating plate is made of a ferromagnetic material, the at least one inductor being designed to heat the radiating plate to a temperature between 400° C. and 700° C. 10. The tunnel oven according to claim 9 , wherein the radiating plate is made from stainless steel. 11. A plant for the heat treatment of friction elements, comprising a tunnel oven according to claim 1 . 12. The tunnel oven according to claim 1 , in which the friction elements are braking elements, such as brake pads. 13. A method for the heat treatment of friction elements comprising: arranging the friction elements, without overlapping, on a resting surface of a conveyor device designed for moving the friction elements between an inlet opening and an outlet opening of a tunnel oven; heating within the tunnel oven the friction elements by means of irradiation using at least one heating device including a radiating plate made from an electrically conductive material positioned such that the radiating plate faces the resting surface, and which the radiating plate is heated to a preset temperature by electromagnetic induction by means of at least one inductor arranged facing the radiating plate spaced apart therefrom on the side opposite to the conveyor device; the radiating plate being arranged at a distance of no more than 1 cm from the friction elements arranged upon the resting surface. 14. The method according to claim 13 , further comprising: feeding a cooling air flow (F) between the resting surface and the radiating plate, the cooling air flow (F) being directed in counterflow to the feeding direction (D) of the conveyor device and, the radiating plate being made of a stainless steel material and being heated to a temperature of between 400° C. and 700° C. 15. The method according to claim 13 , wherein the friction elements are braking elements, such as brake pads. 16. The method according to claim 14 , wherein the cooling air flow is directed transversely to the feeding direction of the conveyor device.