Method for diagnosing failure of flowmeter in measuring machine and hydrogen filling device

The invention claimed is: 1. A method for diagnosing a failure of a flowmeter in a measuring machine, comprising: measuring a filling amount of hydrogen gas by using a flowmeter in a case that a tank of a vehicle powered by the hydrogen gas is filled with the hydrogen gas; receiving information of a pressure, a temperature, and a volume of the tank; calculating a filling amount at an end of filling of the hydrogen gas into the tank from the measuring machine by using the pressure, the temperature, and the volume of the tank; and determining whether or not the flowmeter fails by using a plurality of error values between a metering filling amount at the end of filling measured using the flowmeter and a calculated filling amount at the end of filling calculated using the pressure, the temperature, and the volume of the tank, the plurality of error values being based on a plurality of past performance data stored in a storage device, and an error value at the end of filling of the hydrogen gas at a present time, and outputting a result. 2. The method according to claim 1 , wherein a differential value obtained by subtracting the filling amount calculated from the filling amount measured is used as the error value, and it is determined whether or not the flowmeter fails by whether or not a difference between a statistical value of a plurality of differential values based on the plurality of past performance data and the differential value in filling of the hydrogen gas at the present time is within an allowable range. 3. The method according to claim 1 , wherein an error rate of the filling amount measured with respect to the filling amount calculated is used as the error value, and it is determined whether or not the flowmeter fails by whether or not a difference between a statistical value of a plurality of error rates based on the plurality of past performance data and the error rate in filling of the hydrogen gas at the present time is within an allowable range. 4. The method according to claim 1 , wherein a differential value obtained by subtracting the filling amount calculated from the filling amount measured is used as the error value, and it is determined whether or not the flowmeter fails by whether or not a variation in a plurality of differential values based on a plurality of latest past performance data including a differential value in filling of the hydrogen gas at the present time is within an allowable range. 5. The method according to claim 1 , wherein the flowmeter is a Coriolis-type flowmeter. 6. A method for diagnosing a failure of a flowmeter in a measuring machine, comprising: measuring a filling amount of hydrogen gas during filling by using a flowmeter in a case that a tank of a vehicle powered by the hydrogen gas is filled with the hydrogen gas; calculating a filling amount of the hydrogen gas into the tank from the measuring machine by using a pressure, a temperature, and a volume of the tank during the filling; and comparing the filling amount calculated and the filling amount measured at a same timing during the filling, determining whether or not the flowmeter fails according to a comparison result, and outputting a result. 7. A hydrogen filling device comprising: a measuring machine configured to measure a filling amount of hydrogen gas by using a flowmeter when a tank of a vehicle powered by the hydrogen gas is filled with the hydrogen gas; a reception circuit configured to receive information of a pressure, a temperature, and a volume of the tank; a filling amount calculation circuit configured to calculate a filling amount at an end of filling of the hydrogen gas into the tank from the measuring machine by using the pressure, the temperature, and the volume of the tank; a storage device configured to store a plurality of error values between a metering filling amount at the end of filling measured using the flowmeter and a calculated filling amount at the end of filling calculated using the pressure, the temperature, and the volume of the tank, the plurality of error values being based on a plurality of past performance data; a determination circuit configured to determine whether or not the flowmeter fails by using the plurality of error values based on the plurality of past performance data stored in the storage device and an error value at the end of filling of the hydrogen gas at a present time; and an output circuit configured to output an alarm indicating a failure of the flowmeter. 8. The device according to claim 7 , wherein a differential value obtained by subtracting the filling amount calculated from the filling amount measured is used as the error value, and it is determined whether or not the flowmeter fails by whether or not a difference between a statistical value of a plurality of differential values based on the plurality of past performance data and the differential value in filling of the hydrogen gas at the present time is within an allowable range. 9. The device according to claim 7 , wherein an error rate of the filling amount measured with respect to the filling amount calculated is used as the error value, and it is determined whether or not the flowmeter fails by whether or not a difference between a statistical value of a plurality of error rates based on the plurality of past performance data and the error rate in filling of the hydrogen gas at the present time is within an allowable range. 10. The device according to claim 7 , wherein a differential value obtained by subtracting the filling amount calculated from the filling amount measured is used as the error value, and it is determined whether or not the flowmeter fails by whether or not a variation in a plurality of differential values based on a plurality of latest past performance data including a differential value in filling of the hydrogen gas at the present time is within an allowable range. 11. The device according to claim 7 , wherein the flowmeter is a Coriolis-type flowmeter. 12. A hydrogen filling device comprising: a measuring machine configured to measure a filling amount of hydrogen gas during filling by using a flowmeter when a tank of a vehicle powered by the hydrogen gas is filled with the hydrogen gas; a filling amount calculation circuit configured to calculate a filling amount of the hydrogen gas into the tank from the measuring machine by using a pressure, a temperature, and a volume of the tank during the filling; a determination circuit configured to compare the filling amount calculated and the filling amount measured at a same timing during the filling and to determine whether or not the flowmeter fails according to a comparison result; and an output circuit configured to output an alarm indicating a failure of the flowmeter during the filling of the hydrogen gas, in a case that it is determined that the flowmeter fails.