Vehicle

The invention claimed is: 1. A vehicle comprising: an electric motor; a power transmission device that is provided between the electric motor and a drive wheel and is configured to transmit power from the electric motor to the drive wheel; and a temperature-control circuit through which a non-conductive temperature-control medium for temperature control for the electric motor circulates, wherein the temperature-control circuit includes: a heat exchanger configured to exchange heat between the non-conductive temperature-control medium and a conductive temperature-control medium; a pump driven in accordance with driving of the vehicle to circulate the non-conductive temperature-control medium, a liquid pressure holding unit configured to hold liquid pressure of the non-conductive temperature-control medium in the heat exchanger equal to or higher than a predetermined pressure, a first flow path through which oil is supplied to the heat exchanger and the electric motor as the non-conductive temperature control medium; a second flow path through which the oil is supplied to the power transmission device; and a branching portion from which the temperature-control circuit branches into the first flow path and the second flow path, and the liquid pressure holding unit is provided between the branching portion and the heat exchanger in the first flow path. 2. A vehicle comprising: an electric motor; and a temperature-control circuit through which a non-conductive temperature-control medium for temperature control for the electric motor circulates, wherein the temperature-control circuit includes: a heat exchanger configured to exchange heat between the non-conductive temperature-control medium and a conductive temperature-control medium; a pump driven in accordance with driving of the vehicle to circulate the non-conductive temperature-control medium; and a liquid pressure holding unit configured to hold liquid pressure of the non-conductive temperature-control medium in the heat exchanger equal to or higher than a predetermined pressure, and the liquid pressure holding unit is configured with check valves provided on inflow and outflow sides of the heat exchanger. 3. A vehicle comprising: an electric motor; and a temperature-control circuit through which a non-conductive temperature-control medium for temperature control for the electric motor circulates, wherein the temperature-control circuit includes: a heat exchanger configured to exchange heat between the non-conductive temperature-control medium and a conductive temperature-control medium; a pump driven in accordance with driving of the vehicle to circulate the non-conductive temperature-control medium; and a liquid pressure holding unit configured to hold liquid pressure of the non-conductive temperature-control medium in the heat exchanger equal to or higher than a predetermined pressure, the liquid pressure holding unit is configured with electrically-actuated valves provided on inflow and outflow sides of the heat exchanger, the vehicle further includes a control device configured to control the electrically-actuated valves, and the control device controls the electrically-actuated valve to restrict outflow of the non-conductive temperature-control medium from the heat exchanger when a speed of the vehicle is equal to or less than a threshold. 4. A vehicle comprising: an electric motor; a temperature-control circuit through which a non-conductive temperature-control medium for temperature control for the electric motor circulates, wherein the temperature-control circuit includes: a heat exchanger configured to exchange heat between the non-conductive temperature-control medium and a conductive temperature-control medium; a pump driven in accordance with driving of the vehicle to circulate the non-conductive temperature-control medium, and a liquid pressure holding unit configured to hold liquid pressure of the non-conductive temperature-control medium in the heat exchanger equal to or higher than a predetermined pressure, a pressure sensor configured to measure liquid pressure of the non-conductive temperature-control medium in a flow path through which the non-conductive temperature-control medium is supplied to the heat exchanger in the temperature-control circuit; and a control device configured to detect, based on the liquid pressure of the non-conductive temperature-control medium measured by the pressure sensor, a leak of the non-conductive temperature-control medium in the liquid pressure holding unit or the heat exchanger, wherein the control device is configured to determine that the leak occurs when pressure difference between a driving pressure that is liquid pressure measured when the vehicle is driven and a stopping pressure that is liquid pressure measured when the vehicle is stopped is equal to or greater than a first threshold. 5. A vehicle comprising: an electric motor; a temperature-control circuit through which a non-conductive temperature-control medium for temperature control for the electric motor circulates, wherein the temperature-control circuit includes: a heat exchanger configured to exchange heat between the non-conductive temperature-control medium and a conductive temperature-control medium; a pump driven in accordance with driving of the vehicle to circulate the non-conductive temperature-control medium, and a liquid pressure holding unit configured to hold liquid pressure of the non-conductive temperature-control medium in the heat exchanger equal to or higher than a predetermined pressure, a pressure sensor configured to measure liquid pressure of the non-conductive temperature-control medium in a flow path through which the non-conductive temperature-control medium is supplied to the heat exchanger in the temperature-control circuit; and a control device configured to detect, based on the liquid pressure of the non-conductive temperature-control medium measured by the pressure sensor, a leak of the non-conductive temperature-control medium in the liquid pressure holding unit or the heat exchanger, wherein the control device is configured to determine that the leak occurs when pressure difference between a first pressure that is liquid pressure measured at a first timing when the vehicle is stopped and a second pressure that is liquid pressure measured at a second timing after the first timing when the vehicle is stopped is equal to or greater than a first threshold. 6. The vehicle according to claim 4 , wherein the control device determines that the leak occurs in the heat exchanger when the pressure difference is equal to or greater than a second threshold greater than the first threshold. 7. The vehicle according to claim 5 , wherein the control device determines that the leak occurs in the heat exchanger when the pressure difference is equal to or greater than a second threshold greater than the first threshold.