Intake air cooling device

What is claimed is: 1. An intake air cooling device, comprising: a cooling fluid circuit in which a cooling fluid circulates; a pump disposed in the cooling fluid circuit and drawing the cooling fluid into itself and discharging the cooling fluid; an intake air cooling heat exchanger disposed in the cooling fluid circuit and including a heat-exchanging core to cool intake air into an engine by heat exchange between the intake air and the cooling fluid; a radiator disposed in the cooling fluid circuit and cooling the cooling fluid by heat exchange between the cooling fluid and outside air; and a microcomputer controlling at least one of the pump and a valve disposed in the cooling fluid circuit to control a flow rate of the cooling fluid supplied to the intake air cooling heat exchanger, wherein: the heat-exchanging core includes an intake-air downstream-side core and an intake-air upstream-side core located upstream of the intake-air downstream-side core in a flow of the intake air; each of the intake-air downstream-side core and the intake-air upstream-side core internally includes a cooling fluid channel where the cooling fluid flows; the intake-air downstream-side core is located upstream of the intake-air upstream-side core in a flow of the cooling fluid; the intake air cooling heat exchanger includes a U-turn portion at which a flow direction of the cooling fluid turns around between the intake-air downstream-side core and the intake-air upstream-side core; and the microcomputer intermittently repeats multiple times a supply of a predetermined volume of the cooling fluid via the at least one of the pump and the valve to the intake air cooling heat exchanger to reach a temperature of the intake air flowing out of the intake air cooling heat exchanger repeats rise and fall cycles during a temperature of the intake air before passing through the intake air cooling heat exchanger being kept within a predetermined range or a load on the engine being kept within a predetermined range; wherein the predetermined volume is a value determined on basis of a volumetric capacity of the cooling fluid channel in the intake-air downstream-side core. 2. The intake air cooling device according to claim 1 , wherein: the predetermined volume is from 50% to 150% of the volumetric capacity of the cooling fluid channel in the intake-air downstream-side core. 3. The intake air cooling device according to claim 1 , wherein: the microcomputer continuously controls the at least one of the pump and the valve to supply the intake air cooling heat exchanger with the cooling fluid when the temperature of the intake air before passing through the intake air cooling heat exchanger is above the predetermined range or when the load on the engine is above the predetermined range; and the microcomputer does not supply the intake air cooling heat exchanger via the at least one of the pump and the valve with the cooling fluid when the temperature of the intake air before passing through the intake air cooling heat exchanger is below the predetermined range or when the load on the engine is below the predetermined range. 4. The intake air cooling device according to claim 1 , wherein: during the temperature of the intake air before passing through the intake air cooling heat exchanger being kept within the predetermined range of the load on the engine being kept within the predetermined range, the microcomputer starts a supply of the cooling fluid to the intake air cooling heat exchanger via the at least one of the pump and the valve when a temperature of the intake air after passing through the intake air cooling heat exchanger rises above a threshold, and stops the supply of the cooling fluid to the intake air cooling heat exchanger via the at least one of the pump and the valve when an accumulated flow amount of the cooling fluid supplied to the intake air cooling heat exchanger reaches the predetermined volume. 5. The intake air cooling device according to claim 1 , wherein: the volumetric capacity of the cooling fluid channel in the intake-air downstream-side core is smaller than a volumetric capacity of the cooling fluid channel in the intake-air upstream-side core. 6. The intake air cooling device according to claim 1 , wherein: the microcomputer controls a flow rate of the cooling fluid via the at least one of the pump and the valve supplied to the intake air cooling heat exchanger by controlling the pump to start and stop. 7. The intake air cooling device according to claim 6 , wherein: the pump is configured to discharge the cooling fluid at a volumetric flow rate equal to the predetermined volume per second. 8. The intake air cooling device according claim 1 , wherein: the microcomputer controls a flow rate of the cooling fluid supplied to the intake air cooling heat exchanger by opening and closing a channel of the cooling fluid via the at least one of the pump and the valve. 9. An intake air cooling device, comprising: a cooling fluid circuit in which a cooling fluid circulates; a pump disposed in the cooling fluid circuit and drawing the cooling fluid into itself and discharging the cooling fluid; an intake air cooling heat exchanger disposed in the cooling fluid circuit and including a heat-exchanging core to cool intake air into an engine by heat exchange between the intake air and the cooling fluid; a radiator disposed in the cooling fluid circuit and cooling the cooling fluid by heat exchange between the cooling fluid and outside air; and a microcomputer controlling at least one of the pump and a valve disposed in the cooling fluid circuit to control a flow rate of the cooling fluid supplied to the intake air cooling heat exchanger, wherein: the heat-exchanging core includes an intake-air downstream-side core and an intake-air upstream-side core located upstream of the intake-air downstream-side core in a flow of the intake air; each of the intake-air downstream-side core and the intake-air upstream-side core internally includes a cooling fluid channel where the cooling fluid flows; the intake-air downstream-side core portion is located upstream of the intake-air upstream-side core portion in a flow of the cooling fluid; the intake air cooling heat exchanger includes a U-turn portion at which a flow direction of the cooling fluid turns around between the intake-air downstream-side core portion and the intake-air upstream-side core portion; the microcomputer intermittently repeats multiple times a supply of a predetermined volume of the cooling fluid via the at least one of the pump and the valve to the intake air cooling heat exchanger to reach a temperature of the intake air flowing out of the intake air cooling heat exchanger repeats rise and fall cycles during a temperature of the intake air before passing through the intake air cooling heat exchanger being kept within a predetermined range or a load on the engine being kept within a predetermined range; the microcomputer starts a supply of the cooling fluid to the intake air cooling heat exchanger via the at least one of the pump and the valve when a temperature of the intake air after passing through the intake air cooling heat exchanger rises above a threshold; and the microcomputer stops the supply of the cooling fluid to the intake air cooling heat exchanger via the at least one of the pump and the valve when an accumulated flow amount of the cooling fluid supplied to the intake air cooling heat exchanger reaches the predetermined volume. 10. An intake air cooling device, comprising: a cooling fluid circuit in which a cooling fluid circulates; a pump disposed in the cooling fluid circuit and drawing the cooling fluid into itself and