Abnormality detection device for hydraulic circuit and abnormality detection method for hydraulic circuit

The invention claimed is: 1. An abnormality detection device for a hydraulic circuit comprising an oil pump capable of increasing a pressure of oil sucked through a suction port and discharging the oil through discharge ports; a switching unit that switches between a fully discharged state where oil is discharged to an oil passage through all the discharge ports and a partially discharged state where oil is discharged to the oil passage through part of the discharge ports; a pressure regulation unit that regulates a pressure of oil discharged in either one of the discharged states, switched by the switching unit; and a hydraulic pressure detection unit that detects a hydraulic pressure regulated by the pressure regulation unit, the device comprising: a storage unit that stores a first maximum discharge pressure of oil that is allowed to be discharged in the partially discharged state; a switching control unit that performs switching control to switch to either one of the fully discharged state and the partially discharged state by the switching unit; a pressure regulation control unit that, after the switching control is performed by the switching control unit, sets a target hydraulic pressure to a hydraulic pressure higher than the first maximum discharge pressure in the partially discharged state stored in the storage unit, and performs pressure regulation control on the pressure regulation unit in an effort to achieve the target hydraulic pressure; and a determination unit that, after the pressure regulation control performed by the pressure regulation control unit, determines whether the switching unit has a fixation abnormality in the fully discharged state or the partially discharged state by comparing an oil pressure detected by the hydraulic pressure detection unit with the first maximum discharge pressure in the partially discharged state. 2. The abnormality detection device according to claim 1 , wherein the storage unit stores a second maximum discharge pressure of oil that is allowed to be discharged in the fully discharged state, and the pressure regulation control unit sets the target hydraulic pressure to a hydraulic pressure between the first maximum discharge pressure in the partially discharged state stored in the storage unit and the second maximum discharge pressure in the fully discharged state stored in the storage unit. 3. The abnormality detection device according to claim 2 , wherein the switching control unit performs switching control to switch to the partially discharged state, and when the oil pressure detected by the hydraulic pressure detection unit is higher than the first maximum discharge pressure in the partially discharged state, the determination unit determines that the switching unit has the fixation abnormality in the fully discharged state. 4. The abnormality detection device according to claim 2 , wherein the switching unit has a solenoid valve and a spool valve, and switches between the fully discharged state and the partially discharged state by opening and closing the spool valve by a control pressure supplied from the solenoid valve, and the determination unit determines whether at least one of the solenoid valve or the spool valve has the fixation abnormality. 5. The abnormality detection device according to claim 2 , wherein the hydraulic circuit is mounted on a vehicle that uses an engine as a drive source, the oil pump has first discharge pressure characteristic indicating the maximum discharge pressure in the fully discharged state, which varies according to a number of engine revolutions, and a second discharge pressure characteristic indicating the maximum discharge pressure in the partially discharged state, which varies according to the number of engine revolutions, and the storage unit stores the first discharge pressure characteristic in the fully discharged state, which varies according to the number of engine revolutions, and the second discharge pressure characteristic in the partially discharged state, which varies according to the number of engine revolutions. 6. The abnormality detection device according to claim 2 , wherein the oil pump has a first discharge pressure characteristic indicating the maximum discharge pressure in the fully discharged state, which varies according to a temperature of oil, and a second discharge pressure characteristic indicating the maximum discharge pressure in the partially discharged state, which varies according to the temperature of oil, and the storage unit stores the first discharge pressure characteristic in the fully discharged state, which varies according to the temperature of oil, and the second discharge pressure characteristic in the partially discharged state, which varies according to the temperature of oil. 7. The abnormality detection device according to claim 2 , wherein the hydraulic circuit is in communication with an automatic transmission mounted on a vehicle, and when a transmission gear ratio of the automatic transmission indicates an overdrive side, the pressure regulation control unit performs pressure regulation control. 8. The abnormality detection device according to claim 1 , wherein the switching control unit performs switching control to switch to the partially discharged state, and when the oil pressure detected by the hydraulic pressure detection unit is higher than the first maximum discharge pressure in the partially discharged state, the determination unit determines that the switching unit has the fixation abnormality in the fully discharged state. 9. The abnormality detection device according to claim 1 , wherein the switching unit has a solenoid valve and a spool valve, and switches between the fully discharged state and the partially discharged state by opening and closing the spool valve by a control pressure supplied from the solenoid valve, and the determination unit determines whether at least one of the solenoid valve or the spool valve has the fixation abnormality. 10. The abnormality detection device according to claim 1 , wherein the hydraulic circuit is mounted on a vehicle that uses an engine as a drive source, the oil pump has a first discharge pressure characteristic indicating the maximum discharge pressure in the fully discharged state, which varies according to a number of engine revolutions, and a second discharge pressure characteristic indicating the maximum discharge pressure in the partially discharged state, which varies according to the number of engine revolutions, and the storage unit stores the first discharge pressure characteristic in the fully discharged state, which varies according to the number of engine revolutions, and the second discharge, pressure characteristic in the partially discharged state, which varies according to the number of engine revolutions. 11. The abnormality detection device according to claim 1 , wherein the oil pump has a first discharge pressure characteristic indicating the maximum discharge pressure in the fully discharged state, which varies according to a temperature of oil, and a second discharge pressure characteristic indicating the maximum discharge pressure in the partially discharged state, which varies according to the temperature of oil, and the storage unit stores the first discharge pressure characteristic in the fully discharged state, which varies according to the temperature of oil, and the second discharge pressure characteristic in the partially discharged state, which varies according to the temperature of oil. 12. The abnormality detection device according to claim 1 , wherein the hydraulic circuit is in communication with an automatic tr