DC-DC converter and power conversion apparatus

The invention claimed is: 1. A DC-DC converter comprising: a transformer for converting voltages; a plurality of switching elements for controlling a current flowing through the transformer; a metal radiator; a metal case for housing the transformer, the switching elements, and the radiator; and a refrigerant channel through which a cooled-down refrigerant flows, wherein the refrigerant channel is disposed on the outer surface of the case, wherein the radiator is formed so that the heat conductivity of the radiator is higher than that of the case, wherein the radiator is disposed on the inner surface of the case directly or via a heat conductive member so that the radiator faces the refrigerant channel with the case between the radiator and the channel, wherein the switching elements includes a first switching element and a second switching element, and wherein, in the case where the first switching element is projected in a direction normal to a surface on which the switching elements are disposed and that is a surface of the radiator, the first switching element is disposed on the radiator via an insulating member so that the projected part of the first switching element is overlapped with the projected part of the refrigerant channel, and the second switching element is disposed on the radiator via an insulating member so that the projected part of the second switching element is prevented from being overlapped with the projected part of the refrigerant channel. 2. The DC-DC converter according to claim 1 , wherein the transformer is disposed so that the transformer faces the refrigerant channel with the case between the transformer and the channel. 3. A power conversion apparatus comprising an inverter and a DC-DC converter fixed to the outer surface of the inverter, wherein the inverter includes a power module for converting DC power into AC power and a refrigerant channel through which a cooled-down refrigerant flows; wherein the DC-DC converter includes a transformer for converting voltages, a plurality of switching elements for controlling a current flowing through the transformer, a metal radiator, and a metal case for housing the transformer, the switching elements, and the radiator; wherein the power module is cooled by a cooled-down refrigerant flowing through the refrigerant channel; wherein the radiator is formed so that the heat conductivity of the radiator is higher than that of the case; wherein the radiator is disposed on the inner surface of the case directly or via a heat conductive member so that the radiator faces the refrigerant channel with the case between the radiator and the channel; wherein the switching elements includes a first switching element and a second switching element, and wherein, in the case where the first switching element is projected in a direction normal to a surface on which the switching elements are disposed and that is a surface of the radiator, the first switching element is disposed on the radiator via an insulating member so that the projected part of the first switching element is overlapped with the projected part of the refrigerant channel, and the second switching element is disposed on the radiator via an insulating member so that the projected part of the second switching element is prevented from being overlapped with the projected part of the refrigerant channel. 4. The power conversion apparatus according to claim 3 , wherein the inverter includes a capacitor module for smoothing the DC power supplied to the power module; wherein the refrigerant channel includes a first channel and a second channel; wherein the first channel is formed on a first side portion of the capacitor module; wherein the second channel is formed on a second side portion of the capacitor module and in such a position as to make the second channel faces the first channel with the capacitor module between the second and first channels; and wherein, in the case where the first switching element is projected in a direction normal to a surface on which the switching elements are disposed that is a surface of the radiator, the first switching element is disposed so that the projected part of the first switching element is overlapped with the projected part of the first channel, and the second switching element is disposed so that the projected part of the second switching element is overlapped with the projected part of the capacitor module.