Wind turbine monitoring device, wind turbine system, and wind turbine monitoring method

The invention claimed is: 1. A wind turbine monitoring device for monitoring a wind turbine including a lightning sensor for detecting a lightning strike on a wind turbine blade, comprising: a lightning parameter acquisition part configured to acquire at least one lightning parameter based on an output of the lightning sensor; a lightning level determination part configured to determine a level of the lightning strike based on the at least one lightning parameter acquired by the lightning parameter acquisition part; and an inspection control part configured to determine whether it is necessary to automatically inspect, without any manual operation, the wind turbine blade by at least one inspection unit for inspecting the wind turbine blade, according to the level of the lightning strike determined by the lightning level determination part, wherein the inspection control part is configured to: when the level of the lightning strike is a first level, determine that it is unnecessary to automatically inspect the wind turbine blade by the at least one inspection unit; when the level of the lightning strike is a second level more severe than the first level, perform automatic inspection of the wind turbine blade by the at least one inspection unit; and when the level of the lightning strike is a third level more severe than the second level, instruct inspection of the wind turbine blade by a different type of inspection unit from the at least one inspection unit. 2. The wind turbine monitoring device according to claim 1 , wherein the at least one lightning parameter includes a current, an energy, an electric charge due to the lightning strike on the wind turbine blade, or at least one parameter derived from at least one of the current, the energy or the electric charge. 3. The wind turbine monitoring device according to claim 1 , wherein the inspection control part is configured to, when the lightning sensor detects the lightning strike on the wind turbine blade, stop operation of the wind turbine regardless of the level of the lightning strike. 4. The wind turbine monitoring device according to claim 3 , wherein the inspection control part is configured to, when the level of the lightning strike is the first level, restart operation of the wind turbine without automatically inspecting the wind turbine blade by the at least one inspection unit. 5. The wind turbine monitoring device according to claim 1 , wherein the inspection control part is configured to, when the lightning sensor detects the lightning strike on the wind turbine blade, continue operation of the wind turbine without stopping when the level of the lightning strike is the first level, and stop operation of the wind turbine when the lightning strike is more severe than the first level. 6. The wind turbine monitoring device according to claim 1 , wherein the inspection control part is configured to, when the level of the lightning strike is the second level, perform automatic inspection of the wind turbine blade by the at least one inspection unit after stopping operation of the wind turbine, and determine whether to restart operation of the wind turbine based on a result of the automatic inspection of the wind turbine blade by the at least one inspection unit. 7. The wind turbine monitoring device according to claim 1 , wherein the at least one inspection unit includes at least one of an imaging device, a microphone, or an evaluation part configured to evaluate a damage amount of the wind turbine blade based on the at least one lightning parameter, and wherein the different type of inspection unit from the at least one inspection unit includes at least one of a load sensor, a drone, or an evaluation part configured to evaluate a damage state of the wind turbine blade based on an output of the wind turbine, an electrical resistance sensor, an acceleration sensor, an optical sensor, a deflection sensor, or a pressure sensor. 8. The wind turbine monitoring device according to claim 1 , wherein the inspection control part is configured to, when the level of the lightning strike is a fourth level more severe than the third level, transmit information indicating to manually inspect the wind turbine blade without restarting operation of the wind turbine. 9. A wind turbine system, comprising: a wind turbine comprising a wind turbine blade; and a wind turbine monitoring device for monitoring a wind turbine including a lightning sensor for detecting a lightning strike on the wind turbine blade, the wind turbine monitoring device, comprising: a lightning parameter acquisition part configured to acquire at least one lightning parameter based on an output of the lightning sensor; a lightning level determination part configured to determine a level of the lightning strike based on the at least one lightning parameter acquired by the lightning parameter acquisition part; and an inspection control part configured to determine whether it is necessary to automatically inspect, without any manual operation, the wind turbine blade by at least one inspection unit for inspecting the wind turbine blade, according to the level of the lightning strike determined by the lightning level determination part, and wherein the inspection control part is configured to: when the level of the lightning strike is a first level, determine that it is unnecessary to automatically inspect the wind turbine blade by the at least one inspection unit; when the level of the lightning strike is a second level more severe than the first level, perform automatic inspection of the wind turbine blade by the at least one inspection unit; and when the level of the lightning strike is a third level more severe than the second level, instruct inspection of the wind turbine blade by a different type of inspection unit from the at least one inspection unit. 10. The wind turbine system according to claim 9 , wherein the lightning sensor is a current sensor for detecting a current flowing through the wind turbine blade. 11. The wind turbine system according to claim 9 , wherein the at least one lightning parameter includes a current, an energy, an electric charge due to the lightning strike on the wind turbine blade, or at least one parameter derived from at least one of the current, the energy or the electric charge. 12. The wind turbine system according to claim 9 , wherein the inspection control part is configured to, when the lightning sensor detects the lightning strike on the wind turbine blade, stop operation of the wind turbine regardless of the level of the lightning strike. 13. The wind turbine system according to claim 12 , wherein the inspection control part is configured to, when the level of the lightning strike is the first level, restart operation of the wind turbine without automatically inspecting the wind turbine blade by the at least one inspection unit. 14. The wind turbine system according to claim 9 , wherein the inspection control part is configured to, when the lightning sensor detects the lightning strike on the wind turbine blade, continue operation of the wind turbine without stopping when the level of the lightning strike is the first level, and stop operation of the wind turbine when the lightning strike is more severe than the first level. 15. The wind turbine system according to claim 9 , wherein the inspection control part is configured to, when the level of the lightning strike is the second level, perform automatic inspection of the wind turbine blade by the at least one inspection unit after stopping operation of the wind turbine, and determine whether to restart opera