Patent ID: 8879259
Filing Date: 2014-11-04
Classification: B61C,F28D,F28F,H01L,H05K,Y02T

Abstract:
1. A cooling system for an onboard electrical power converter in which a heat dissipation surface extends substantially parallel to a flow of cooling air draft, comprising: a coolant tank that contains coolant, and includes a bottom surface and an upper surface, the bottom surface being in thermal contact with the heat dissipation surface of the onboard electrical power converter; a first conduit that is provided connecting to the upper surface of the coolant tank and at downstream of the flow of the cooling air draft, the coolant flowing from the coolant tank out into the first conduit; a heat exchanger that comprises a plurality of second conduits arranged with opposing the upper surface of the coolant tank so as to extend along the upper surface from downstream of the flow of the cooling air draft to upstream thereof, and that conducts the coolant in the first conduit to upstream of the flow of the cooling air draft via the plurality of second conduits; and a return unit that returns the coolant from the heat exchanger to the coolant tank; wherein the heat exchanger comprises a plurality of heat dissipation fins through which the cooling air draft passes from a first side of the heat exchanger to a second side of the heat exchanger, the heat dissipation fins being provided on outer surfaces of the second conduits, the first side not facing the coolant tank and the second side facing the coolant tank, wherein the cooling system is one that employs an evaporative cooling method in which the coolant within the coolant tank is boiled and evaporated by heat from the electrical power converter; the return unit is configured to a third conduit that is shorter than the first conduit; the third conduit is provided to the upper surface of the coolant tank at the upstream of the flow of the cooling air draft, and returns the coolant in the plurality of second conduits to the coolant tank; the inclination of the plurality of the heat dissipation fins is set to be approximately parallel to the flow of the cooling air draft; the onboard electrical power converter is provided underneath a floor of a railway vehicle, so that the heat dissipation surface thereof is substantially vertical; and the third conduit is arranged to be lower in the vertical direction than the first conduit.