Cooling aeraulics device for a rail vehicle element and corresponding rail vehicle

What is claimed is: 1 . An aeraulics device for cooling an element of a rail vehicle, the aeraulics device being configured to be placed on a roof of said rail vehicle such that said conduit extends substantially longitudinally in relation to said rail vehicle, said aeraulics device comprising a main conduit; and a secondary conduit which extends substantially parallel to the main conduit, said main conduit comprising successively a front portion, equipped with a front opening for air intake, a central portion, in which is housed said element to be cooled, and a rear portion, equipped with a rear opening for air discharge, wherein a surface of a transverse cross-section of the main conduit evolves, from the front opening to the rear opening, so as to generate an acceleration of the flow of air in the conduit by means of a Venturi effect, wherein the secondary conduit comprises a front part, equipped with a front orifice for air intake, a central part, and a rear part, equipped with a rear orifice for air discharge, and wherein a surface of a transverse cross section of the secondary conduit evolves from the front orifice to the rear orifice of the secondary conduit so as to generate turbulences promoting the acceleration of the flow of air in the main conduit. 2 . The aeraulics device according to claim 1 , in which the surface of the transverse cross section of the central portion of the said main conduit is lower than the surface of the transverse cross section of the front portion of the said main conduit. 3 . The aeraulics device according to claim 2 , in which the surface of the transverse cross section of the central portion of the said main conduit is lower than the surface of the transverse cross section of the rear portion of the said main conduit. 4 . The aeraulics device according to claim 1 , in which the front and rear openings of the said main conduit are arranged substantially transversely to a longitudinal axis of the railway vehicle. 5 . The aeraulics device according to claim 1 , in which the secondary conduit and the main conduit are connected to one another by a passage that permits circulation of air, the passage extending between the central portion of said main conduit and the central part of said secondary conduit, the disturbances promoting the acceleration of the flow of air in the central portion of the main conduit. 6 . The aeraulics device according to claim 1 , in which the central part of the secondary conduit is equipped with at least one deflector generating turbulences in the flow of air circulating into the secondary conduit. 7 . The aeraulics device according to claim 6 , in which the deflector is borne by a top surface of the central part of the secondary conduit and protrudes out in the central part of the secondary conduit. 8 . The aeraulics device according to claim 7 , in which the deflector is a rod or a plate. 9 . A rail vehicle comprising an element to be cooled, wherein said rail vehicle has a cooling aeraulics device according to claim 1 , for cooling said element to be cooled, the aeraulics device being fixed on a roof of the rail vehicle such that one axis of the main conduit extends substantially parallel to a longitudinal axis of the rail vehicle.