Piston cooling device

What is claimed is: 1. A piston cooling device that is installed in an internal combustion engine, the piston cooling device comprising: a cooling cavity that is provided inside a piston, and includes an inlet/outlet hole that opens on a bottom surface of the piston; a first oil jet that sprays oil toward the inlet/outlet hole; a second oil jet that sprays oil toward a part different from the inlet/outlet hole; a valve or a pump that supplies the oil that is sprayed from the second oil jet; and an electronic control unit configured to control the valve or the pump such that the first oil jet sprays oil in preference to the second oil jet, wherein the first oil jet sprays oil to the inlet/outlet hole and thereafter the second oil jet sprays oil to the part different from the inlet/outlet hole. 2. The piston cooling device according to claim 1 , further comprising: an oil pump that generates an oil pressure that is necessary to spray oil; wherein when a discharge oil amount of the oil pump is smaller as compared with an oil amount necessary to cause oil to be sprayed from both of the first oil jet and the second oil jet, the discharge oil amount is consumed preferentially in oil spray from the first oil jet. 3. The piston cooling device according to claim 2 , wherein the first oil jet and the second oil jet communicate with the oil pump via a common oil pressure path, and a valve opening pressure of the first oil jet is a lower pressure as compared with a valve opening pressure of the second oil jet. 4. The piston cooling device according to claim 3 , wherein the oil pump is a two stage type oil pump having a function of switching a generated oil pressure to two stages of a low pressure side generated oil pressure and a high pressure side generated oil pressure, the valve opening pressure of the first oil jet is equal to or lower than the low pressure side generated oil pressure, and the valve opening pressure of the second oil jet is higher than the low pressure side generated oil pressure, and is equal to or lower than the high pressure side generated oil pressure. 5. The piston cooling device according to claim 3 , wherein the internal combustion engine comprises a plurality of cylinders, the first oil jet and the second oil jet are disposed in each of the cylinders, and the first oil jet and the second oil jet that belong to each of the plurality of cylinders communicate with the common oil pressure path. 6. The piston cooling device according to claim 4 , wherein the internal combustion engine comprises a plurality of cylinders, the first oil jet and the second oil jet are disposed in each of the cylinders, and the first oil jet and the second oil jet that belong to each of the plurality of cylinders communicate with the common oil pressure path. 7. The piston cooling device according to claim 2 , wherein the first oil jet and the second oil jet communicate with the oil pump via a common oil pressure path, and the electronic control unit is configured to control the valve or the pump such that the amount of the oil that is sprayed from the second oil jet decreases, when an oil pressure that is supplied to the first oil jet is lower as compared with a pressure that is necessary to cause oil to be sprayed from the first oil jet. 8. The piston cooling device according to claim 2 , comprising: an oil pump that supplies an oil pressure to the first oil jet by being driven by drive torque of the internal combustion engine, wherein the valve or the pump comprises an electric oil pump that is driven by electric power and supplies an oil pressure to the second oil jet, and the electronic control unit is configured to cause oil that is supplied from the electric oil pump to be sprayed from the second oil jet under a condition in which oil spray by the second oil jet is required. 9. The piston cooling device according to claim 1 , wherein an amount of oil that is sprayed from the second oil jet is preferentially decreased under a condition of excessive cooling ability in which excessive cooling occurs to the piston when oil is sprayed from both of the first oil jet and the second oil jet. 10. The piston cooling device according to claim 9 , wherein the electronic control unit is configured to control the valve or the pump such that the amount of the oil that is sprayed from the second oil jet decreases under the condition of excessive cooling ability. 11. The piston cooling device according to claim 1 , wherein the piston is made of steel. 12. A piston cooling device that is installed in an internal combustion engine, the piston cooling device comprising: a cooling cavity that is provided inside a piston, and includes an inlet/outlet hole that opens on a bottom surface of the piston; a first oil jet that sprays oil toward the inlet/outlet hole; and a second oil jet that sprays oil toward a part different from the inlet/outlet hole, wherein the first oil jet comprises a first check valve configured to open at a first valve opening pressure, and the second oil jet comprises a second check valve configured to open at a second valve opening pressure that is higher than the first valve opening pressure such that the first oil jet sprays oil in preference to the second oil jet, wherein the first oil jet sprays oil to the inlet/outlet hole and thereafter the second oil jet sprays oil to the part different from the inlet/outlet hole. 13. The piston cooling device according to claim 12 , further comprising: an oil pump that generates an oil pressure that is necessary to spray oil; wherein when a discharge oil amount of the oil pump is smaller as compared with an oil amount necessary to cause oil to be sprayed from both of the first oil jet and the second oil jet, the discharge oil amount is consumed preferentially in oil spray from the first oil jet. 14. The piston cooling device according to claim 13 , wherein the first oil jet and the second oil jet communicate with the oil pump via a common oil pressure path. 15. The piston cooling device according to claim 14 , wherein the oil pump is a two stage type oil pump having a function of switching a generated oil pressure to two stages of a low pressure side generated oil pressure and a high pressure side generated oil pressure, the first valve opening pressure is equal to or lower than the low pressure side generated oil pressure, and the second valve opening pressure is higher than the low pressure side generated oil pressure, and is equal to or lower than the high pressure side generated oil pressure. 16. The piston cooling device according to claim 14 , wherein the internal combustion engine comprises a plurality of cylinders, the first oil jet and the second oil jet are disposed in each of the cylinders, and the first oil jet and the second oil jet that belong to each of the plurality of cylinders communicate with the common oil pressure path. 17. The piston cooling device according to claim 15 , wherein the internal combustion engine comprises a plurality of cylinders, the first oil jet and the second oil jet are disposed in each of the cylinders, and the first oil jet and the second oil jet that belong to each of the plurality of cylinders communicate with the common oil pressure path. 18. The piston cooling device according to claim 12 , wherein the piston is made of steel.